Open economy digitalisation1 offers unique opportunities for India to reap dividends from cross-border digital trade. India’s state-of-the-art digital public infrastructure (DPI) has enormous potential for enhancing cross-border trade across sectors like finance, health, education, agriculture and MSMEs and boosting India’s productivity and growth potential. The rising digitalisation share in cross-border remittance flows would help reduce the cost of sending remittances, increase their volume and improve income of the recipients. The internationalisation of the INR is benefitting from the comprehensive and integrated approach and would impart vibrancy to India’s external sector. India’s DPI resilience can be augmented by strengthening self-reliance in sea cables, expanding satellite internet connectivity, making UPI global, and providing pro-active policy support to data localisation. There exists immense potential in building cross-border interoperable fast payment systems and CBDCs to leverage open economy digitalisation. 1. Introduction IV.1 India has embarked on a transformative journey to become a developed nation by 2047. This aspiration will get a boost from the significant progress that has been achieved in India’s digital public infrastructure (DPI) and the potential to scale it up manifold. The “India Stack” is well recognised as a world-class DPI which has fostered innovation and competition, promoted financial inclusion, improved efficiency of public expenditure, facilitated direct transfers of social safety payments, and reduced leakages and corruption (Alonso et al., 2023). There exists enormous potential to leverage India’s DPI in an open economy setting to expand and diversify digital merchandise and services trade, promote cost-effective remittances, and increase FDI into digital sectors. By enabling its emergence as a preferred currency for cross-border payments, digitalisation also presents opportunities for hastening internationalisation of the rupee. The DPI can be easily exported due to its open and modular architecture. In this context, this chapter provides an in-depth assessment of the opportunities and challenges related to open economy digitalisation. IV.2 Digitalisation is set to break the ‘iron laws’ of cross-border trade and bring about a fundamental structural shift in global production processes, trade, and investment flows via the re-allocation of tasks through the use of robotics, automation and artificial intelligence (AI), servicification of the production processes and the rise in e-commerce (Bekkers et al., 2021). Geographically, digital trade has been gradually shifting from advanced economies (AEs) to emerging market economies (EMEs) [IMF, OECD, UN, and WTO, 2023].2 India’s digital trade is projected to increase to US$ 2.4 trillion in 2047 - more than 13 times its level in 2020. India’s fast adoption of frontier technologies and its state-of-the-art DPI encompassing an array of critical sectors in the economy such as finance, health, education, industry and governance are expected to expand economic opportunities while strengthening its linkages with the rest of the world. Cross-border digital ordering and delivery of goods and services have picked up at an accelerated pace since the pandemic.3 During the pandemic, digital trade enhanced economic resilience across geographies by maintaining business operations and delivering goods and services amidst physical restrictions. IV.3 Digitalisation is also rapidly transforming cross-border migrant remittances and global capital flows by lowering costs, increasing transparency and efficiency, fostering financial inclusion, and aiding coordination and risk management. Given considerations of financial stability and global coordination, the shift towards open economy digitalisation is expected to be gradual and measured, which has been India’s approach. The internationalisation of the UPI is a pertinent example of this approach. The initial steps were aimed to enable Indian travellers and diaspora to make merchant payments using UPI abroad. The next upgradation was the ability to make person-to-person remittances using UPI with the same efficiency as of domestic transactions. Going forward, the goal is to globalise the UPI such that every other country will have some fast payment system (FPS), either its own or the UPI (Sankar, 2023). Such a network would ensure that all cross-border payments can happen on a FPS, which augurs well for global trade and payments. Central bank initiatives such as interlinkage of FPSs across economies and central bank digital currencies (CBDCs) are expected to support seamless international transactions, reduce foreign exchange risks and effectively manage global liquidity. IV.4 While digitalisation in an open economy brings immense benefits, it is not devoid of challenges. These include, inter alia, ensuring interoperability and adoption of standards; cross-border digital governance and accountability; rising technological dependency and disruption risks; digital monopolies and market concentration; and safeguarding intellectual property. Policies on data security and privacy need to strike a delicate balance between global harmonisation and country-specific preferences. Moreover, digital trade policies may be needed to prevent digital trade wars. The volume and types of cross-border transactions and exchanges have increased significantly. This necessitates measurement of digitalisation in the System of National Accounts (SNA) and Balance of Payments (BoP) statistics. Moreover, the adoption of digital supply and use tables (DSUTs) could improve the measurement of the digital economy (OECD, 2024a). To be future ready, there is also a need to enhance India’s DPI resilience by building self-reliance in sea cables, expanding satellite internet connectivity, ramping up cybersecurity, and providing pro-active policy support to data localisation. IV.5 Against this backdrop, this chapter discusses digital trade in goods and services, digital remittances, and digital capital flows, while also focussing on supply-side enablers such as DPIs, cross-border FPSs, CBDCs, and data embassies. Section 2 delves into the existing landscape, significance, and prospects of digitalisation within India's external macroeconomic framework. Digitalisation of trade, services and remittances is discussed along with the implications for the internationalisation of the INR. Section 3 explores the supply-side dimensions, such as the expanded influence of India’s DPIs on the global stage, with a special focus on the internationalisation of the UPI and global prospects stemming from CBDCs. Section 4 elucidates opportunities for India from data localisation in the realm of data centre infrastructure. Section 5 discusses the potential challenges due to rapid advancements in digitalisation. Section 6 provides concluding remarks. 2. India’s Journey Towards Open Economy Digitalisation IV.6 The digital economy encompasses all activities that use digitised data and can be measured as the contribution of economic transactions, that involve both digital products and digital industries, to output (IMF, 2018b; ADB, 2021). Digital products are goods and services that primarily generate, process, and/or store digitised data, while digital industries are producers that primarily produce such products. Within digital economy, ‘core’ digital economy includes economic activity from core information and communications technology (ICT) goods and digital services producers in the following five product groups: hardware, software publishing, web publishing, telecommunications services, and specialised and support services. The broader concept of ‘digitally dependent economy’ is the combined output from the core digital sector and ten digitally disrupted sectors4, with the latter as defined by the UN Advisory Expert Group on National Accounts, 2019. In 2019, the size of the core global digital economy was estimated at 8.8 per cent of world output, and the corresponding figure for India was 8.5 per cent5. India’s overall digitally dependent economy was estimated at around 22 per cent of GVA in 2019 (Gajbhiye et al., 2022).6 India’s performance on various indicators of the digital economy compares well against many of its peer EMEs (Chart IV.1). IV.7 Within a digital economy, cross-border digital trade constitutes a key component. While traditional trade statistics make a distinction between cross-border trade in goods and services and further classify services based on the four modes of supply7, digital trade entails new dimensions. The growth of cross-border e-commerce has helped in identifying the ordering and delivery process (both of which can be digital), and has also brought attention to the different (institutional) nature of partners involved in international trade. The literature identifies three key dimensions of digital trade [Chart IV.2] – the nature of the transaction (‘how’), the product (‘what’) and the partners involved (‘who’) – and suggests a close relationship between digitalisation, internet connectivity and international trade (Choi, 2010; Lin, 2015; González and Sorescu, 2021; Herman and Oliver, 2023). IV.8 Digitalisation matters for trade, and more so for services trade, because the trade in modern services may not be conditional upon the geographical proximity between trading partners. Bivariate Granger causality analysis using world digital trade estimates following González et al. (2023), and fixed broadband usage per 100 people during 2001 to 2020 suggests unidirectional causality from digitalisation to global digital trade. These results are corroborated by Granger causality tests on a panel dataset for 58 economies (both AEs and EMDEs) and a sample period from 2015 to 2021 which indicate unidirectional causality from digitalisation (proxied by share of internet users in the population) to trade in digitally delivered services (Table IV.1). Table IV.1: Granger Causality Test Results between Digitalisation and Cross- Border Digital Trade in Services | 1 | 2 | A. Bivariate Granger Causality Test | Fixed broadband usage does not Granger-cause global digital trade | F-Statistic: 2.95 Probability-value: 0.09 | Global digital trade does not Granger-cause fixed broadband usage | F-Statistic: 0.24 Probability-value: 0.79 | B. Panel Granger Causality Test | Internet usage does not Granger-cause digitally delivered services exports | HPJ Wald test: 47.82 Probability-value: 0.00 | Internet usage does not Granger-cause digitally delivered services imports | HPJ Wald test: 773.82 Probability-value: 0.00 | Note: Juodis et al. (2021) Panel Granger non-causality test was used for the cross-country panel dataset. Source: WTO, OECD Tiva Database, World Bank and RBI staff estimates. | Goods and Services in the Digital Age IV.9 Digital trade in goods refers to digitally ordered goods comprising international e-commerce transactions (Chart IV.3). Digital trade in services constitutes digitally ordered and/or delivered services (IMF, OECD, UN and WTO, 2023). Globally, the share of digital exports in total world exports has risen from around 22 per cent to around 29 per cent during 1995 to 2020 (Chart IV.4a). IV.10 Goods account for over three quarters of global trade, and the limited evidence available on digitally ordered goods suggests that around two-third of e-commerce sales relate to goods. For India, the share of digital trade in total trade is estimated to have risen from around 20 per cent in 1995 to around 29 per cent in 2020 (Chart IV.4b). Digitally delivered services have recorded a significant surge globally and India has outperformed global trends (Chart IV.4c). IV.11 India is a net importer of ICT products (Charts IV.5a and IV.5b). ICT products, the backbone of the global digital economy, are primarily intended to fulfil or enable the function of information processing and communication by electronic means, including transmission and display (OECD, 2008). In line with the needs of its growing digital economy, India’s share in global ICT goods imports has increased from 0.3 per cent in 2000 to 1.8 per cent in 2022 (Chart IV.5c). India is set to become a major adopter of the frontier technologies on ICT, which would in turn further increase the demand for ICT goods (Chart IV.5d). On the export side, communication equipment dominates exports of ICT products. The ongoing efforts to onshore their production through the production linked incentive (PLI) scheme are helping India’s exports of these products and as a result, the trade deficit in electronics may moderate going forward. IV.12 Across major services exporting economies, digitally deliverable services dominate exports, gaining in share especially after the pandemic (Charts IV.6a and IV.6b). With an average annual growth rate of 8.2 per cent between 2005 and 2023, global exports of digitally delivered services have outpaced other services and goods (WTO, 2024). Growth has accelerated in recent years (10.9 per cent annually between 2020 and 2023), due to the pandemic-induced surge in remote work. AEs have generally dominated the exports of digitally delivered services, and only around 21 per cent of digitally delivered services exports in 2023 originated from EMDEs. IV.13 India’s services exports in US dollar terms recorded a compound annual growth rate (CAGR) of 10.3 per cent over the recent two decades (between 2005 and 2023), significantly higher than India’s merchandise export growth (7.9 per cent) as well as world services export growth (5.9 per cent). Over the same period, India’s digitally delivered services exports grew by more than 8 times (from US$ 31 billion to US$ 257 billion), whereas digitally delivered services imports rose by more than 6 times (from US$ 18 billion to US$ 111 billion) [Charts IV.6c and IV.6d]. During this period, the expansion in India’s digitally delivered services exports (CAGR of 11.9 per cent) was well above that in world digitally delivered services exports (7.7 per cent CAGR). As a result, the share of India’s digitally delivered services exports in world digitally delivered services exports doubled from 3.0 per cent in 2005 to 6.0 per cent in 2023. In the case of imports, the shares have risen from 1.9 per cent in 2005 to 3.1 per cent in 2023. IV.14 India’s digitally delivered services trade (exports plus imports) comprised 10.5 per cent of India’s nominal GDP in 2023, up from 6.0 per cent in 2005. Whereas, the share of India’s digitally delivered services exports in India’s GDP went up from 3.8 per cent in 2005 to 7.4 per cent in 2023. India’s services exports exhibited resilience during the pandemic primarily on account of a larger share of telecommunication, computer and information services and business services in its export basket (Gajbhiye et al., 2024). IV.15 India’s rise as a preferred destination for global capability centres (GCCs) has raised the trend growth of digitally delivered services trade (Chart IV.7). The number of GCCs housed in India has increased by around 60 per cent since 2015-16 to reach more than 1580 in 2022-23, and the number is expected to reach 2400 by 2030 (EY, 2023). The wave of big data, artificial intelligence (AI), machine learning (ML), internet of things (IoT) and advancements in compatible hardware, generative AI and spatial computing has opened up new opportunities to expand India’s services exports, especially in business services, and may improve India’s participation in global value chains (GVCs). Generative AI is projected to become a US$ 1.3 trillion market by 2032 (Bloomberg, 2023). India is also experiencing the generative AI boom with currently around 100 start-ups (as on July 2024) and a projected market size of US$ 17 billion in 2030 (Inc42, 2024). IV.16 Cross-border e-commerce offers a more affordable point of entry compared to conventional businesses, demands fewer personnel, and enables firms to directly connect with customers, thereby reducing reliance on intermediaries to access global markets (Majumdar et al., 2020). Cross-border e-commerce transactions are mainly classified into four types depending upon the sector involved – business-to-business (B2B), business-to-consumer (B2C), consumer-to-consumer (C2C) and government-to-business (G2B). The Indian e-commerce market is also gradually gaining ground. IV.17 Following González et al. (2023) and assuming India’s annual nominal GDP growth during 2024-2047 is at the same pace as recorded during 2001-19 (10.1 per cent in US$ terms), India’s digital trade is projected to increase to around US$ 0.5 trillion in 2030, and US$ 2.4 trillion in 2047 from around US$ 0.2 trillion in 2020 (Table IV.2)8. Scenario analysis suggests that if the annual nominal GDP growth were to be 3.5 percentage points above its historical pace (2001-19), India’s digital trade could go up to US$ 0.7 trillion in 2030 and US$ 5.8 trillion in 2047 (Chart IV.8a). India’s share in world digital trade is projected to increase from 5.6 per cent in 2020 to around 12 per cent by 2047 in the baseline scenario and around 14 per cent in the higher growth scenario (Chart IV.8b). Table IV.2: Scenario Assumptions for India’s Digital Trade Estimates | 1 | 2 | 3 | Variable | Baseline Scenario | Higher Growth Scenario | Nominal GDP growth (in US$ terms): India | 10.1 per cent (realised during 2001-19) during 2024-47 | 13.6 per cent during 2024-479 | Digital trade to GDP ratio: India | 6.6 per cent (realised during 2011-19 for digitally delivered services trade) | 7.6 per cent (realised during 2015-23 for digitally delivered services trade) | Nominal GDP growth (in US$ terms): World | 5.2 per cent (realised during 2001-19) during 2024-47 | 8.1 per cent during 2024-4710 | Digital trade to GDP ratio: World | 5.8 per cent (realised during 2011-19) | 6.0 per cent (realised during 2015-20) | Source: RBI staff estimates. | IV.18 With the advent of digitalisation and technological advancements, India is witnessing growing servicification of its manufacturing exports. India’s domestic services value-added share in gross manufacturing exports rose to 17.7 per cent in 2020 from 13.4 per cent in 2011.11 Moreover, India has a revealed comparative advantage (RCA) in modern services exports, particularly in computer services exports (Gajbhiye et al., 2024). Further, its RCA has improved in the case of business services exports. Digitalisation is expected to support the exports of Indian services (Box IV.1). Box IV.1 Do India’s Services Exports Defy the Gravity Model? The gravity model, the workhorse model for bilateral trade between economies, posits that countries trade in proportion to their economic size (measured as their share in world GDP), and a set of trade costs, some of which are bilateral, such as geographical proximity or distance (Tinbergen, 1962; Gurevich, et al., 2018; Herman, 2023). While GDP size is expected to impact trade positively, bilateral distance between the economies dampens trade on account of an increase in trade costs. Given the growing importance of digitalisation in cross-border trade flows, recent literature has used augmented gravity equations to analyse the impact of digitalisation and internet connectivity on global trade (Herman and Oliver, 2023). Against this backdrop, the following gravity equation is estimated for India’s merchandise and services exports for the period 2015-2021 and a sample of 56 countries, which comprise around 90 per cent of India’s total trade. where, i represents India, j represents the importer and t represents year. In the case of services exports, alternate specifications using total services exports (Specification 2) and modern services exports (Specifications 312 and 413) have been estimated, given India’s revealed comparative advantage in the latter. Variables, other than distance, such as region dummy, common legal origin of the economies and common language are also used as controls.14 The regression results indicate that the gravity model holds in the case of India’s merchandise exports and total services exports (Table 1), albeit with a lower coefficient in the latter. However, in the case of modern services exports, the distance variable turns out to be statistically insignificant, suggesting that the cross-border trade in modern services may not be impacted by transport costs. For total services exports by India, distance remains a key factor as indicated by the statistically significant negative coefficient, as traditional services exports (such as travel and transportation) depend upon the distance between the economies. The results also indicate the positive impact of digitalisation (proxied by percentage of internet usage in the economy and fixed broadband subscriptions per 100 people in alternate specifications) in services exports, suggesting that digitalisation may help moderate the impact of trade costs arising due to geographical distance. Table 1: Gravity Model Results15 | | Specification (1) | Specification (2) | Specification (3) | Specification (4) | Variables | Merchandise Exports | Services Exports-Total | Services Exports -Category 1 | Services Exports-Category 2 | log(distance)i,j | -1.01*** | -0.98*** | -0.58*** | -0.63*** | -0.18 | -0.26 | -0.16 | -0.25 | | (0.22) | (0.22) | (0.17) | (0.17) | (0.23) | (0.25) | (0.23) | (0.25) | log(GDP)i,t | 1.32*** | 1.15*** | 0.52* | 0.78*** | 0.33 | 1.00*** | 0.37 | 1.04*** | | (0.26) | (0.20) | (0.30) | (0.16) | (0.42) | (0.21) | (0.41) | (0.22) | log(GDP)j,t | 0.81*** | 0.82*** | 0.76*** | 0.75*** | 0.79*** | 0.79*** | 0.79*** | 0.79*** | | (0.22) | (0.07) | (0.07) | (0.06) | (0.08) | (0.09) | (0.08) | (0.08) | region dummyj | 0.22 | 0.25 | -0.22 | -0.27 | -0.13 | -0.31 | -0.10 | -0.27 | | (0.29) | (0.30) | (0.34) | (0.31) | (0.42) | (0.43) | (0.42) | (0.43) | common legal origini,j | 0.63** | 0.67*** | 0.46** | 0.41** | 0.59** | 0.48* | 0.59** | 0.48* | | (0.26) | (0.24) | (0.20) | (0.20) | (0.27) | (0.29) | (0.27) | (0.29) | common languagei,j | 0.49** | 0.43** | 0.70*** | 0.81*** | 0.73*** | 0.90*** | 0.73*** | 0.90*** | | (0.21) | (0.21) | (0.22) | (0.23) | (0.27) | (0.29) | (0.28) | (0.31) | internet usagej,t | -0.01 | - | 0.01* | - | 0.02*** | - | 0.02*** | - | | (0.003) | - | (0.004) | - | (0.01) | - | (0.01) | - | broadband usagej,t | - | -0.01 | - | 0.02** | - | 0.03*** | - | 0.03*** | | - | (0.01) | - | (0.01) | - | (0.01) | - | (0.01) | constant | -43.09*** | -38.65*** | -24.62*** | -31.11*** | -24.84** | -42.51*** | -25.89** | -43.45*** | | (8.36) | (6.78) | (8.60) | (4.88) | (11.74) | (7.05) | (11.68) | (7.20) | Observations | 392 | 392 | 385 | 385 | 392 | 392 | 392 | 392 | F-Statistic | 57.70*** | 56.31 | 46.62*** | 66.23*** | 28.30*** | 37.88*** | 29.65*** | 40.50*** | R-squared | 0.78 | 0.78 | 0.79 | 0.80 | 0.74 | 0.73 | 0.73 | 0.72 | Note: Standard errors (clustered by distance) in parentheses; *** p<0.01, ** p<0.05, * p<0.1. Source: RBI staff estimates. | References Gurevich, T., et al. (2018). The dynamic gravity dataset: Technical documentation. Washington, DC: US International Trade Commission. Herman, P. (2023). Gravity Estimation: Best Practices and Useful Approaches. US International Trade Commission. Herman, P. R., and Oliver, S. (2023). Trade, policy, and economic development in the digital economy. Journal of Development Economics, 164, 103135. Tinbergen, J. (1962). Shaping the World Economy: Suggestions for an International Economic Policy. | IV.19 Recent developments in AI and Large Language Models (LLMs) provide an additional avenue to boost India’s digital trade. Due to rising digitalisation, AI is expected to increase India’s annual GVA growth rate by 1.3 percentage points to 7.1 per cent in 2035 (Statista, 2023). India has the highest relative AI-skill penetration rate16, and it has shown the largest increase in AI talent between 2016 and 2023 (Maslej et al., 2024). This upskilled talent could help India’s software export markets leverage AI seamlessly and move them up the value chain. Additionally, India’s pool of highly skilled workers is well-primed to take up jobs as AI specialists in non-software domains, such as those requiring the building of domain-specific AI models for tailor-made use by organisations. Hence, there is potential to increase export value addition through AI across all product types. India is in an advantageous position to develop LLMs and their applications suited to the Eastern world, especially for culturally similar regions like South and Southeast Asia. Digitalisation of Cross-Border Remittance Flows IV.20 Digitalisation has the potential to improve the landscape of the cross-border remittance flows. Remittances have become the premier source of finance for low- and middle-income countries (LMICs), even exceeding FDI flows by US$ 274 billion in 2023 (World Bank, 2024b). The size of international migrant stock, the driver of remittance flows, has nearly doubled from 153 million in 1990 to 302.1 million in 2023. Globally, inward remittance flows have increased more than seven-fold between 2000 and 2023 to US$ 857 billion, with flows to LMICs amounting to US$ 656 billion. IV.21 Migrant stock from India comprised 1.3 per cent of its population in 2020. India is the highest remittance recipient country in the world, with its share increasing over time (Chart IV.9a). India’s inward remittance receipts stood at US$ 115 billion in 2023, which is 13.5 per cent of the world total. The cost of sending remittances has decreased over time, with digitalisation playing a key role (Charts IV.9b and IV.9c). The average cost of receiving remittances in the case of India stood at 5.01 per cent in Q1:2024 (marginally lower than 5.04 per cent in Q4:2023), but higher than the Sustainable Development Goal (SDG) of 3 per cent per US$ 200 remittance (Chart IV.9d). IV.22 In India, the ratio of remittances to GDP has gradually increased from 2.8 per cent in 2000 to 3.2 per cent in 2023 and is now above that of gross FDI inflows to GDP ratio (1.9 per cent in 2023), providing strength to India's external sector. In 2021, more than half of India’s inward remittances were from the Gulf countries, while North America accounted for 22 per cent share. Going forward, India is poised to be the world’s leading supplier of labour as India’s working age population is expected to rise till 2048, while it has started dwindling for major AEs (Chart IV.10). Thus, the global demand for Indian migrant workers will remain high, which along with continuing skill upgradation of the workforce would provide a sustained boost to inward remittances. Based on the trends observed over the past decade, remittances to India are estimated to increase to around US$ 160 billion in 2029 from US$ 115 billion in 2023 (Chart IV.11). Cost of Remittances to India: Potential for FinTech Disruption IV.23 The global average cost of sending US$ 200 as remittance stood at 6.35 per cent in Q1:2024, marginally lower than 6.39 per cent in Q4:2023 (World Bank, 2024c). Nonetheless, it is more than double the SDG target. For India, in Q4:2023, the cost of remittance from Singapore, Malaysia, the UK, Kuwait, Italy and Bahrain was within the SDG target, while the cost from Thailand and South Africa was more than 10 per cent (Chart IV.9d). This may be due to the dominance of banks in the latter set of countries, while the former countries have a competitive remittance industry with banks facing competition from money transfer operators (MTOs) and FinTechs. Additional factors that influence remittance cost include the speed of money transfer, the payment instrument used for transfer (cash or bank account), and the access point/mode of transfer (bank branch, internet or agent). The digitalisation of cross-border remittance flows would improve the speed and transparency of transactions, while reducing liquidity costs and fees. Since the banking channel requires involvement of several banks communicating through SWIFT messaging, transaction costs are higher in general, while settlements are slower than through FinTechs (Church, 2023). Though banks, MTOs and RemTechs17 operate on nearly the same foreign exchange margin, the average cost of receiving remittances (US$ 200) through RemTechs is significantly lower than that of the banks (Chart IV.12). Realising the potential of FinTech, the Reserve Bank had selected cross-border payments as the second cohort under its Regulatory Sandbox initiative (RBI, 2022a). IV.24 As the world progresses towards a more interconnected and digitally driven era, the creation of integrated cross-border payment frameworks and CBDCs would provide new avenues for FinTechs to provide cheaper solutions in cross-border payments (Box IV.2) Box IV.2 Cost of Remittances to India – The Case for Digital Disruption The cost of sending US$ 200 remittance declined globally from 9.2 per cent in 2012 to 6.3 per cent in 2023, with significant regional variations - the highest in Sub- Saharan Africa (7.9 per cent) and the lowest in South Asia (5.8 per cent) [World Bank, 2023]. Lower transaction costs boost remittances and enhance incomes/savings of the recipients. A one per cent decrease in the cost of remitting US$ 200 leads to about a 1.6 per cent increase in remittances (Ahmad et al., 2021). If the cost of sending remittances could be reduced by 5 percentage points relative to the value sent, remittance recipients in developing countries would receive over US$ 16 billion more each year (World Bank, 2023). Following Beck et al. (2022), the determinants of the cost of remittances to India for a sample of 20 countries for the period Q2:2016 to Q3:2023 are estimated using the World Bank’s Remittance Prices Worldwide dataset - a quarterly survey dataset providing the cost of remittances.18 Interaction terms of access point (type of location where the remittance service is available – bank branch, internet or money transfer agent) and payment instrument (used by the sender to pay for the transaction – cash or bank account) were added to examine the role of digitalisation. Pooled OLS19 estimates suggest that the cost of sending remittances through bank branches and agents is higher as compared with accessing remittance services directly from the internet; a bank account as the payment instrument costs less than remitting using cash; fast payments were found to be cheaper, demonstrating the cost effectiveness of digital payments technology; and MTOs provide a cost-effective alternative to banks in the remittance business (Table 1). Deepening digitalisation – for example, through global acceptability of the UPI and the development of CBDCs - can lower the cost of remittances, enhance their volume and improve income/ savings of the recipients. Table 1: Remittance Costs - Marginal Effects from Pooled OLS20 | Dependent Variable: | Specification | Specification | Specification | Cost of Sending US$ 200 (Per cent) | (1) | (2) | (3) | Access Point = Agent | 4.822*** | | 4.623*** | | (0.379) | | (0.454) | Access Point = Bank Branch | 6.587*** | | 6.558*** | | (0.812) | | (0.805) | Access Point = Internet | 4.364*** | | 3.404*** | | (0.254) | | (0.635) | Payment Instrument = Bank Account | | 5.447*** | 5.015*** | | | (0.228) | (0.336) | Payment Instrument = Cash | | 7.029*** | 5.095*** | | | (0.440) | (0.588) | Speed > 1 Hour (Slow) | 5.471*** | 6.404*** | 5.517*** | | (0.090) | (0.091) | (0.0832) | Speed <= 1 Hour (Fast) | 5.347*** | 5.827*** | 5.312*** | | (0.222) | (0.258) | (0.213) | Firm Type = Bank | 6.030*** | 9.232*** | 6.629*** | | (0.318) | (1.046) | (0.685) | Firm Type = MTO | 4.680*** | 4.765*** | 4.670*** | | (0.276) | (0.412) | (0.271) | Interaction Terms | | | | Access Point x Firm Type | Yes | No | Yes | Access Point x Speed | Yes | No | Yes | Payment Instrument x Firm Type | No | Yes | Yes | Payment Instrument x Speed | No | Yes | Yes | Access Point x Payment Instrument | No | No | Yes | Observations | 6,915 | 6,915 | 6,915 | R-squared | 0.590 | 0.575 | 0.591 | Country FE | Yes | Yes | Yes | Year FE | Yes | Yes | Yes | Quarter FE | Yes | Yes | Yes | Year*Quarter FE | Yes | Yes | Yes | Standard Errors clustered by | Country | Country | Country | Note: Standard errors (clustered by country) in parentheses; *** p<0.01, ** p<0.05, * p<0.1; MTO – Money Transfer Operator; Pooled OLS was used as different respondents are tracked over time. Source: RBI staff estimates. | References Ahmed, J., Mughal, M. and Martínez-Zarzoso, I (2021). Sending Money Home: Transaction Cost and Remittances to Developing Countries. The World Economy. 44, 2433– 2459. Beck, T., Janfils, M. and Kpodar, K (2022). What Explains Remittance Fees? Panel Evidence. IMF Working Paper No. 2022/063. World Bank (2023). Remittance Prices Worldwide Quarterly Issue 48, December. | Role of Trade Policy in Cross-Border Digital Trade IV.25 Cross-border digital trade policies play a crucial role in harnessing new opportunities, building trust, and facilitating coordination on regulatory aspects like data security and cybersecurity. Provisions facilitating digital trade can significantly increase trade, especially in services (Herman and Oliver, 2023), and help increase competitiveness. This is especially true for LMICs, where an enabling regulatory environment can help reduce costs of digitally delivered services trade (IMF, OECD, UN, and WTO, 2023; González et al., 2023). Digital trade policy discussions are gaining prominence in multilateral fora, bilateral trade agreements, and regional trade agreements (RTAs), digital economy agreements, and domestic regulations (Chart IV.13a). According to the Trade Agreement Provisions on Electronic-commerce and Data (TAPED), among the operational trade agreements since 2000, 184 contained provisions on e-commerce/digital trade, while 102 contained a chapter dedicated to e-commerce/digital trade. Dedicated digital economy agreements (DEAs)21 have gained prominence in recent times. While incorporating many of the issues discussed in trade agreements, DEAs also extend discussions to emerging areas such as cooperation on AI, digital identity, data innovation, FinTech and digital payments. DEAs are dynamic in nature and designed to deepen mutual understanding of the digital economy, while being responsive to the latest technological developments, business models and regulatory challenges. IV.26 Many countries, including India, have passed data protection acts22 to deal with issues of privacy, national security, and intellectual property rights (IPRs). India’s data protection regulations aim to align with global standards. Globally, there has been intense intervention in issues pertaining to digitalisation, especially in data governance, content moderation, competition, consumer protection and authorisation, registration, and licensing (Chart IV.13b). Restrictive trade policies and restrictive domestic regulatory environment may distort global digital trade and risk fragmentation of global value chains (GVCs): 0.1 percentage point rise in the OECD’s Digital Services Trade Restrictiveness Index (DSTRI) can lead to a 15.4 per cent increase in international trade costs (González et al., 2023). Conducive trade policies and an enabling domestic regulatory space that balance the benefits of digital trade with the risks to data privacy, consumer protection and cybersecurity are key tasks for policymakers (IMF, OECD, UN, and WTO, 2023; OECD, 2024b). IV.27 India has seven trade agreements with digital trade provisions and two trade agreements with dedicated chapters for e-commerce/digital trade (Table IV.3). Harnessing technology for customs and trade facilitation and policies encouraging favourable customs duties on electronic transmission; contracts using e-signatures, e-invoicing and paperless transactions; consumer protection against data breach and fraudulent transactions; and protection of software source code may be advocated. Building digital readiness for e-commerce is an important issue under the discussions of the UNCTAD’s Intergovernmental Group of Experts on e-commerce and the Digital Economy. Key hindrances identified include addressing digital divides to mitigate the risk associated with limited access to financing, particularly for micro, small and medium enterprises (MSMEs). Table IV.3a: India’s Trade Agreements with e-Commerce/Digital Trade Provisions | S.No. | Agreement | Country/ Group | Year in Force | 1 | 2 | 3 | 4 | 1 | Framework Agreement for Establishing Free Trade Area between Thailand and India | Thailand | 2004 | 2 | Comprehensive Economic Cooperation Agreement between India and Singapore | Singapore | 2005 | 3 | Framework Agreement on Comprehensive Economic Cooperation between India and the Association of Southeast Asian Nations | ASEAN | 2010 | 4 | Comprehensive Economic Cooperation Agreement between India and Malaysia | Malaysia | 2011 | 5 | Comprehensive Economic Cooperation and Partnership Agreement (CECPA) between Mauritius and India | Mauritius | 2021 | 6 | Australia-India Economic Cooperation and Trade Agreement | Australia | 2022 | 7 | Comprehensive Economic Partnership Agreement (CEPA) between India and UAE | UAE | 2022 | Table IV.3b: India’s Trade Agreements with e-Commerce/Digital Trade Chapters | 1 | Comprehensive Economic Cooperation Agreement between India and Singapore | Singapore | 2005 | 2 | Comprehensive Economic Partnership Agreement (CEPA) between India and UAE | UAE | 2022 | Source: Taped Dataset and Taped Codebook (November 2023). | Digitalisation and Capital Flows IV.28 In the sphere of capital flows, digital foreign direct investment (FDI) is comparatively a newer area of discussion in the international fora. Although the definition of digital FDI has not yet been formalised globally, it may be defined as a cross-border investment that is often asset-light as the foreign enterprise does not need to invest in building production or delivery assets in the host economy (Chaisse, 2023). The digital FDI framework comprises three key pillars – new digital activities, digital adoption of traditionally non-digital firms and digital infrastructure, and each of these pillars is associated with certain facilitating elements (UNCTAD, 2017). By attracting digital FDI, economies are expected to boost their digital capabilities. However, digital FDI requires certain pre-requisites from both supply and demand perspectives. While the supply-side elements involve policies and structural reforms enabling digital-friendly investment climate and ecosystem, on the demand side, domestic firms need to showcase their need, priorities, and opportunities involving digital investment. IV.29 Global investors engaging in new digital activities seek data security legislations, copyright laws to protect intellectual property and data privacy regulations (Stephenson, 2020). They also look for availability of e-payment services, policy support for digital businesses and local digital skills along with international, domestic, and urban connectivity. Additionally, global investors seek ease of receiving licenses for digital infrastructure, availability of digitally skilled workforce, use of international standards and regional coordination for infrastructure investment. Opportunities for Internationalisation of the Rupee IV.30 The US dollar remains the dominant currency for international payment transactions, notwithstanding a fall in its share in total allocated reserves from around 71 per cent in 2000 to around 58 per cent in 2023 (Table IV.4). The US dollar also remains the dominant invoicing currency, with around 70 per cent share in cross-border trade invoicing in the Asia-Pacific region (Bertaut et al., 2021). A currency may internationalise as a reserve instrument by becoming a global store of value, or as a medium of exchange by being used for international payments (Gopinath and Stein, 2018). Technological innovations in payment systems could promote use of other currencies, leading to more currency competition and the development of digital currency areas or regional reserve currencies (Brunnermeier, James, and Landau, 2019; BIS, IMF, and World Bank 2021). IV.31 Historically, the two roles - store of value and medium of exchange - have progressively converged. However, this may not hold in a digitalised world. For a national currency to become a reserve asset, full capital account convertibility is a demanding prerequisite. However, to internationalise as a medium of exchange, a currency may leverage cross-border trade using well-developed digital networks to create a digital currency area. Advances in payment technologies could reduce currency switching costs23, thus weakening existing network effects and inertia (Kim et al., 2024). With the rise in global geopolitical tensions and geoeconomic fragmentation, bilateral and regional economic cooperation agreements are gaining ground. Nearly a decade ago, the IMF had noted that the INR alongside the Brazilian real, the Chinese renminbi, the Russian ruble and the South African rand have gained significant regional importance and have also shown a marked increase in their usage in international transactions, thus, exhibiting their potential to internationalise, while highlighting that full capital account convertibility may not be a necessary prerequisite for the same (IMF, 2011; RBI, 2022b). Table IV.4: Global Finance – Key Indicators | (Shares in Per cent/Index) | Metrics | Period | US Dollar | Euro | Pound Sterling | Japanese Yen | Chinese Yuan | Indian Rupee | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | Global Forex Reserves | End-2023 | 58.4 | 19.9 | 4.9 | 5.7 | 2.3 | _ | Export Invoicing | June 2021 | 54 | 30 | 4 | 4 | 4 | _ | Forex Transactions | April 2022 | 88 | 31 | 13 | 17 | 7 | 2 | Global GDP | 2023 | 26.1 | 14.8 | 3.2 | 4.0 | 16.9 | 3.4 | Global Trade | 2022 | 11.2 | 16.0 | 3.5 | 3.2 | 11.0 | 2.7 | Financial Markets Index | 2021 | 0.900 | 0.715 | 0.854 | 0.856 | 0.635 | 0.582 | Chinn-Ito Index | 2021 | 2.299 | 2.275 | 2.299 | 2.299 | -1.242 | -1.242 | Source: Currency Composition of Official Foreign Exchange Reserves, IMF, Boz et al., (2022), BIS (2022c), World Economic Outlook Database, April 2024 (based on GDP at current prices US$ billion), World Bank’s World Development Indicators, 2022 (based on current US$), European Commission, IMF’s Financial Development Index Database, Chinn and Ito (2006) and Atlantic Council Dollar Dominance Monitor. | IV.32 Given the potential benefits of internationalisation of INR in terms of lower transaction costs for cross-border trade and investment operations and lower exchange rate risk, various measures have been taken towards this end over the years. Anecdotal evidence suggests that the INR is accepted in Bhutan, Nepal, Singapore, Malaysia, Indonesia, Hong Kong, Sri Lanka, the UAE, Kuwait, Oman, Qatar, and the UK, among others. The Nepal Rastra Bank, Royal Monetary Authority of Bhutan and Bank Negara Malaysia hold Government of India (GoI) securities and Treasury Bills. Some sovereigns, like Singapore, hold Indian equity and bond assets (including G-secs) through their sovereign wealth funds. The Reserve Bank’s efforts in recent years to develop India’s financial markets have fostered trust, stability, and innovation by making capital raising more efficient, removing segmentation between onshore and offshore markets, and expanding the participation and product base (Das, 2024). Banks are now allowed to access offshore INR markets for FX and interest rate derivatives with a view to improve the efficiency of price discovery and provide greater opportunities to domestic participants. Market-makers have been permitted to deal in such products beyond domestic market hours. Rupee derivatives settled in foreign currency have also been permitted in GIFT City. Further, Indian government bonds have begun to be included, in a phased manner, in the JPMorgan Global Bond Index for Emerging Markets (GBIEM) starting June 28, 2024, and will be included in the Bloomberg Emerging Market (EM) Local Currency Government Index, starting January 31, 2025. With this facilitative environment in place, there are multiple ways for internationalisation of the INR as a currency for cross-border payments (Table IV.5). IV.33 India’s merchandise and services trade, investment and remittance flows taken together generated demand for cross-border payments worth US$ 1.9 trillion in 2023-2424. Based on the latest available bilateral data for 202125, the top ten partner countries account for more than 50 per cent of this demand and could be a starting point in exploring interoperability and expansion of digital public infrastructure towards bilateral/multilateral solutions for cross-border payments. Recently, the Reserve Bank has joined Project Nexus, a multilateral international initiative to connect the FPSs26 of four ASEAN countries (Malaysia, Philippines, Singapore, and Thailand) and India. These four countries account for more than two-thirds (US$ 110 billion) of India’s total flows with ASEAN countries. Its extension to the complete ASEAN bloc could add cross-border flows to the tune of around US$ 45 billion annually. While India has a merchandise trade deficit with these nations, it is set off to a large extent by its services exports, remittances from Indian migrant workers, and FDI inflows. Table IV.5: Ways to Internationalise the INR | S. No. | Method | Objective/Examples | 1 | 2 | 3 | 1. | Bilateral/Multilateral Trade/Payments Arrangements | To support liquidity arrangements in times of a financial crunch. Examples include the Asian Clearing Union (ACU)27, the SAARC Currency Swap Framework28, the UPI-PayNow linkage between India and Singapore and bilateral MoUs such as with the Central Bank of UAE. | 2. | Special Rupee Vostro Accounts (SRVAs) | Authorised Dealer (AD) banks are permitted to open SRVA to settle trade transactions in INR with any country. Rupee payments for imports can be credited to these accounts. Balance in the SRVA can be used for any permissible current and capital account transactions. | 3. | Local Currency Settlement (LCS) / Bilateral Swap Arrangement (BSA) | To facilitate wider use of local currencies in current and capital account transactions to improve ease of doing business and reduce dependency on hard currencies. Examples include MoUs on LCS with the UAE and Indonesia and the India-Japan BSA. | Source: RBI (2022b). | IV.34 The Report of the RBI’s Inter-Departmental Group on Internationalisation of INR (October, 2022) recommended facilitating Local Currency Settlement (LCS) framework for bilateral transactions in local currencies and operationalising bilateral swap arrangements (BSAs) with the counterpart countries in local currencies. A LCS framework could be the most readily acceptable arrangement with economies with which payment flows (to and from) are nearly balanced. Taking an illustrative threshold flow gap of US$ ±2 billion, seven large29 economies fulfil this criterion. For these seven countries, the annual merchandise and services trade, remittances and investment flows were US$ 163.6 billion in 2021 (around 11.5 per cent of India’s total such flows). In this regard, any deficit in trade account can be offset by a surplus in capital account, remittances or services. Such patterns of bilateral cross-border flows can incentivise nations to look towards mutual acceptance of each other’s currencies for settlement of cross-border transactions. Additionally, there are various large trading partners with whom trade is invoiced in USD and other foreign currencies. The acceptance of INR could be increased in such cases by leveraging the onward trade relationship of these partners with other countries, where the INR enjoys acceptability. IV.35 Recent initiatives to promote the use of the INR and the UAE dirham for cross-border transactions and cooperation for interlinking payment and messaging systems between India and the UAE will help reduce settlement risk, foreign exchange risk, and dollar dependence in their bilateral trade (RBI, 2023b). Similarly, the use of local currencies for cross-border transactions between India and Indonesia would optimise costs and settlement time for bilateral trade transactions (RBI, 2024a). This model can be extended to other similar countries. The LCS and the BSA frameworks can act as a catalyst for the financial market deepening and stability in the region. Besides a reduction in transaction costs, the internationalisation of the INR may also reduce India’s dependence on hard currencies for cross-border payments. IV.36 As envisaged in the Reserve Bank’s Payments Vision 2025, a mechanism for international INR settlement through Continuous Linked Settlement (CLS) would help increase global acceptance of the INR. The CLS is an initiative by a consortium of the world’s largest foreign exchange clearing banks to enable FX settlement in Payment versus Payment (PvP) mode to address Herstatt risk30. Currently, it supports 18 of the most actively traded currencies globally. The CLS mechanism settles transactions worth more than US$ 6.5 trillion daily (CLS, 2024), which is nearly 87 per cent of the global daily FX turnover (BIS, 2022c). 3. Internationalisation of Digital Public Infrastructure IV.37 The integration of DPI into economic activities has profound implications for India’s open economy digitalisation. India’s G-20 presidency in 2023 placed DPI on the global map. The key pillars of India’s DPI, such as digital identity, digital payments financial infrastructure, digital governance, and digital industries/ education, offer tremendous opportunities due to their flexible and modular approach, for which various cross-border use cases have been identified (Table IV.6). Furthermore, India’s G-20 task force on DPI suggested the creation of Digital Public Goods (DPG) packages that will ensure availability of the assets such as software codes and documentation among others required for the successful deployment of the DPI solution (GoI, 2024). Table IV.6: Major Leading Digital Public Infrastructure and Digital Public Goods in India | S. No. | Name | Description/useful for | Launch | Usage* | Cross-Border Business Potential | Potential use cases for cross-border trade | 1 | 2 | 3 | 4 | 5 | 6 | 7 | Digital Identity | 1. | Aadhaar | A 12-digit unique identification number | 2009 | 1.4 billion Aadhar numbers issued | G2C, B2C | Distribution of Government scheme through DBT | 2. | eKYC | Electronic authentication using Aadhaar | 2013 | 14.7 billion eKYC completed as on March 31, 2023 | G2C, B2C | Digital onboarding | 3. | eSign | Legally valid electronic signature | 2016 | 18 empanelled eSign service providers | B2B, B2C, G2C | Legal enforcement of digital contract | Digital Health | 4. | Ayushman Bharat Digital Mission | Enhancing health services -teleconsultation and e-pharmacy | 2020 | 0.36 billion health records linked | B2C, G2C | Digital health records | 5. | CoWIN | Web portal for COVID-19 vaccination registration | 2020 | 2.2 billion Covid-19 vaccinations facilitated | G2C, B2C | Verifiable health certifications, telemedicine | Digital Payments/Financial Infrastructure | 6. | AePS | Aadhaar Enabled Payment System | 2010 | 5.5 billion transactions in 2023-24 | B2C, B2B, G2C | Facilitating online access to banks through digital identification | 7. | APB | Aadhaar Enabled Bank Accounts | 2011 | 1.4 billion transactions in 2023-24 | G2C, B2C | Help reduce leakages from welfare schemes using direct bank transfers | 8. | FASTag | Using RFID technology for toll payments | 2014 | 88.2 million tags issued | B2C, G2C | Easily deployable across countries | 9. | UPI | Instant real-time payment system | 2016 | 131.2 billion UPI transactions in 2023-24 | B2C, G2C, B2B, C2C | Financial / banking penetration | 10. | BBPS | Integrated bill payment system | 2016 | 1.4 billion transactions in 2023-24 | B2C, G2C | Recurring payment ecosystem | 11. | GSTN | Track and manage the tax liabilities under the GST system. | 2017 | 14 million active taxpayers | G2B, G2C | Offers leakage proof tax compliance system | 12. | Account Aggregator | Consent-based flow of digital financial information across FIs | 2021 | 64 million cumulative successful consents | B2B, B2C | Digital financial data aggregation | Digital Governance | 13. | DigiLocker | Allows storage and access to verified digital documents | 2015 | 0.29 billion users as on July 10, 2024 | G2C, B2C | Facilitate paperless governance | 14. | DIGIT Core | Digital Infrastructure for Governance, Impact and Transformation | 2017 | 2.0 billion citizens across 10 countries benefitted as on July 10, 2024 | G2C | Good governance technology platform | Digital Industries/Education | 15. | Udyam | Allowing MSMEs to access government schemes and benefits. | 2020 | 27.3 million MSME (Udyam) Registrations as on July 10, 2024 | G2C | Enhance ease of doing business and facilitate cross-border trade | 16. | Digital Infrastructure for Knowledge Sharing (Diksha) | Enables collaborative learning and teaching and generates customisable content | 2017 | 1.71 crore registered users on DIKSHA as on July 15, 2024 | G2C | Resource and expertise sharing | Note: eKYC: Electronic Know Your Customer, eSign: Electronic Signature, CoWIN: COVID-19 Vaccine Intelligence Network, AePS: Aadhaar enabled Payment System, APB: Aadhaar Payments Bridge, BBPS: Bharat Bill Payment System, GSTN: Good and Services Tax Network, DIGIT Core: Digital Infrastructure for Governance, Impact and Transformation Core. *: Data as on March 31, 2024, unless otherwise indicated. Source: National Payments Corporation of India (NPCI), Sahamati, eGov and Government of India. | Learnings from DPIs Worldwide IV.38 DPI provides tremendous opportunities to countries in fostering financial inclusion, empowering women, enhancing transparency, and increasing efficiency (Table IV.7). Digitalising government transfers contributed to 865 million people worldwide opening their first financial account to receive money from the government (Demirgüç-Kunt et al., 2022). Countries that already had elements of DPI in place (such as digital databases or ID records and data-sharing platforms) could reach more than three times the beneficiaries during the pandemic than those that had to collect latest information (World Bank, 2022). Table IV.7: Key Learnings from Cross-Country DPIs | Sr. No. | Country | Benefit | Key Learnings | 1 | 2 | 3 | 4 | 1. | Brazil | Pix plus digital wallets with remote onboarding and pro-digital policies contributed to 75 per cent of Auxilio Emergencial31 cash transfer beneficiaries using the funds digitally (Lara de Arruda et al., 2022) | • Fostering financial inclusion | 2. | Mozambique | Beneficiaries spend less than 30 minutes waiting for mobile money payments versus more than one hour waiting for cash payments. | • Reducing time lag • Enabling faster settlement | 3. | India | (i) The use of digital payments has reduced delays in the payment of maternal health conditional cash transfers by 43 per cent. (ii) The onboarding cost of a typical firm is estimated to significantly reduce from around INR 1,500 to INR 10 (World Bank, 2018). (iii) The introduction of biometric-based digital payments in employment and pension schemes reduced leakages by 41 per cent (Muralidharan, et al., 2016). (iv) NITI for States DPI platform is a live repository of 7,500 best practices, 5,000 policy documents, 900+ datasets, 1,400 data profiles, and 350 NITI publications. The knowledge products on the platform span 10 sectors (PIB, 2024). | • Cost Saving • Time Saving • Reduces leakages • Increases transparency | 4. | Niger | Households where women received digital social assistance payments have shown 16 per cent higher diet diversity than those who received benefits in cash (Aker et al., 2016). | • Women empowerment | 5. | Singapore | eKYC, facilitated by the Singpass consented data-sharing service, has reduced the time to complete digital transactions by 80 per cent (OECD, 2022). | • Reducing time lag • Enabling faster settlement | 6. | Estonia | The government, citizens, and residents save a significant amount of working time every year due to the X-Tee data-sharing platform (Vainsalu, 2017). | • Time saving | 7. | Zambia | Choice-based payments in the educational sector allowed for greater competition among payment service providers and improved customer service. | • Foster competition | 8. | Türkiye | The Integrated Social Assistance Service Information System, which is linked to 28 public databases, reduced the number of documents needed for applicants of social assistance programmes from 17 to just 1 (World Bank, 2023). | • Increasing efficiency | Source: World Bank, OECD and various countries' government websites. | Leveraging India’s DPI – New Areas for Cross- Border Trade IV.39 By integrating emerging technologies like AI capabilities, India’s DPI can cater to significant global demand and propel a transformative leap forward towards ‘Digital Public Intelligence’ (INDIAai, 2023; WEF, 2023; GoI, 2024). First, India’s digital public health infrastructure and user base can be leveraged for cross-border telemedicine, remote patient monitoring, and medical diagnostic research. India’s CoWIN platform, which managed COVID-19 vaccination programme, shows its capability in building scalable digital public goods and can help other countries develop similar platforms for access to healthcare services and data exchange. Furthermore, the evolution of the National Health Portal into a consolidated repository of health information signifies a significant leap towards a unified and interconnected healthcare model. The infusion of modern technologies, including Natural Language Processing (NLP), sensors, genetic analysis, and AI, promises a patient-centric healthcare system. The convergence of IoT devices and robotics is set to revolutionise healthcare delivery, moving beyond traditional hospital settings to embrace home-based care. India can also carve a niche in specialised digital solutions for the increasing population of senior citizens worldwide. These include robots, customised hardware such as mobiles, tablets, wearables, and security devices, as well as digitally delivered services such as telemedicine, counselling, and financial advice. IV.40 Second, in the education sector, India’s DPI experience has the potential to accelerate the pace of equitable learning experiences across the globe. This can be facilitated via digitally empowered classrooms, incorporating augmented reality (AR)/virtual reality (VR) and AI-ML technologies, which aim to make learning collaborative, engaging, and accessible to learners across the globe. Third, the recently launched open-source e-commerce platform, “Open Network Digital Commerce (ONDC),” is poised to be a catalyst for local commerce in India. The open source ONDC encourages start-ups to innovate and build specialised applications, enhancing accessibility to reliable services (Deloitte, 2023). It can also facilitate seamless exports for Indian businesses by connecting SMEs, logistics providers, and financial institutions across cross-border payment providers. The ONDC’s interoperable framework reduces complexities and costs associated with international trade, encouraging more MSMEs to engage in global commerce. Finally, the ONDC’s transparent platform helps businesses adhere to international trade regulations to access global markets. IV.41 DPI can also be deployed for the infrastructure sector under the National Infrastructure Pipeline, which has a total investment of more than ₹108 lakh crore. DPI can leverage computerised land records and digitised maps created under the Digital India Land Records Modernization Programme, electronic government clearances, developments in Geographic Information System (GIS), drones and IoT to enable real time, detailed and accurate monitoring of infrastructure and industrial projects. This can be a specialised DPI available to prospective investors, governments and contractors to enable project selection, planning and implementation in a plug-and-play manner. Not only can this help attract foreign investment, but it can also be exported to other countries that face pressing infrastructure needs. Strengthening India’s DPI: Cross-Border Fast Payments IV.42 By leveraging new digital technology, reducing the number of intermediaries, enhancing openness and competition, FPSs have the potential to make cross-border payments cheaper and faster, while increasing transparency. Cross-border payments include commercial payments executed by financial institutions on behalf of their clients (B2B, B2C, C2B, and C2C flows) and treasury payments related to the settlement of inter-bank trades, securities, foreign exchange, money markets, among others. While banks dominate the B2B and B2C cross-border payment segments, FinTechs have occupied the C2B and C2C segments. The market for cross-border payments has expanded in the recent years driven by a rise in cross-border labour and capital flows owing to the spread of global manufacturing supply chains and e-commerce, foreign investment flows and cross-border asset management. The value of cross-border payments is estimated to surpass US$ 250 trillion in 2027 (Bank of England, 2024). The USD and the EUR are the two most widely used currencies for cross-border payments, with each having an approximate share of 40 per cent (Perez-Saiz et al., 2023). IV.43 At present, correspondent banking based on SWIFT messaging is the dominant mechanism for cross-border payments. SWIFT also facilitates securities and FX settlement, KYC/AML compliance, trade finance, corporate treasury operations and business intelligence (SWIFT, 2024). It processes approximately 45 million transactions per day (SWIFT, 2022). Median transaction processing time for SWIFT can vary from less than five minutes to more than two days depending on the corridor, while cross-border payments via the UPI-Pay Now interlinkage can be completed within a minute (Nilsson et al., 2022; RBI, 2023c). Additionally, charges are not uniform across SWIFT participant banks, which leads to uncertainty for the customer. Hence, there is a case for interlinking of FPSs for cross-border payments to make them faster, cheaper, more transparent and inclusive, as envisaged under the G20 roadmap to enhance cross-border payments. IV.44 Payment system interoperability and extension is one of the priority themes to help achieve the G20 targets for cross-border payments (FSB, 2022). With more than 70 FPSs operating globally (Chart IV.14), interlinking arrangements32 would constitute the first step towards faster and cheaper cross-border payments. Growing use of APIs33 and the adoption of the ISO 20022 financial messaging standard34 have opened avenues for payment system interlinking, which would involve benefits such as shortening of transaction chains, reduction of transaction and funding costs, increased payment speed, transparency in fees, and improved competition in the provision of foreign exchange and cross-border payment services. IV.45 The interlinking of payment arrangements can be differentiated by the type of link (direct or intermediated) between participants and the currency arrangement (single/multi-currency and with/without currency conversion). There could be four key types of links: (i) single access point model, (ii) bilateral link, (iii) hub and spoke model, and (iv) common platform model. The UPI-PayNow linkage is a pertinent example of the bilateral model, which leverages open banking APIs to allow account holders of participating financial institutions in India and Singapore to conduct cross-border remittance transactions with the same ease as domestic transactions through the individual FPSs (RBI, 2023c). In a bilateral link, two FPSs are connected directly through nostro/ vostro accounts of linked systems. The Reserve Bank has also signed an MoU with the Central Bank of UAE to link the UPI with the UAE’s FPS – the Instant Payment Platform (IPP), the respective Card Switches (RuPay switch and UAESWITCH) and to explore the linking of payments messaging systems – the Structured Financial Messaging System (SFMS) of India with the messaging system in the UAE (RBI, 2023b). There are limits to the scalability of the bilateral model since every FPS may have different technical standards, business processes, governance framework and regulatory requirements, thus, requiring complex technical integration and multi-party legal negotiation (BIS, 2023). IV.46 At present, India is one of the major countries with a 24x7 RTGS system. According to Central Banking’s Payments Benchmarking 2022, only 12 per cent of the respondent central banks operated their RTGS 16–24 hours a day, with a majority operating it for only 7-12 hours per day. India’s RTGS runs on ISO 20022 standard and is ready to be streamlined with the internationally accepted standard for cross-border fund transfers. Additionally, the natural working hours of India’s financial sector lie comfortably within the global settlement window. Several global outreach initiatives to expand the footprint of the UPI are already underway through bilateral and multilateral linkages and collaborations with relevant stakeholders. As per the Reserve Bank’s Payments Vision 2025, steps can be taken to migrate all the Reserve Bank-operated payment messaging systems to ISO 20022 standard. The feasibility of expanding RTGS to settle transactions in major trade currencies such as USD, EUR and GBP can be explored through bilateral or multilateral arrangements. These arrangements could provide real time proceeds in foreign currencies to traders and help develop the country as a major centre for international financial trades. IV.47 The system of liquidity bridges for seamless transfer of funds can also be explored. In a bilateral liquidity bridge, collateral – usually in the form of cash – is held by payment system participants at a specific central bank (the facilitating bank), denominated in the currency issued by it. The facilitating bank notifies the receipt of the collateral which enables the provision of intraday liquidity by another central bank (the lending bank) in its native currency to the participants or their affiliated entities (e.g., branches or subsidiaries) within the jurisdiction of the lending bank (BIS, 2022a). The benefits of maintaining liquidity bridges include efficient management of global liquidity requirements, lower foreign exchange risk and credit risks for payment system providers (PSPs), and a credit line in times of financial stress. IV.48 For the extension of its payments technology associated DPI into the global arena, India can provide technical assistance to standardise processes and protocols across countries to make them compatible with the UPI. Given that the UPI offers features like plug-and-play innovation through APIs, CBDC interoperability (with the e-₹), offline capability, ability to link credit cards and collect requests, it is also a highly attractive candidate for countries exploring the market for a readymade FPS to adopt in their jurisdictions (Watson, 2024). Improving India’s DPIs: Challenges and Building Resilience IV.49 Despite being one of the leading producers of optical fibre cable (OFC) in the world, the fiberisation in India’s broadband lines remains low. There is a significant share of digital subscriber line (DSL) and other non-fibre lines in India’s broadband lines, which may hinder internet speed and 5G adoption (TechHerald, 2021). Only around 38 per cent of India’s mobile towers are fiberised, while 6G technology will require 100 per cent fiberisation (KPMG, 2023). Strengthening Sea Cable Network IV.50 For a sustainable growth of India’s DPI, reliable high-speed connectivity between strategic locations would be paramount. Globally, US$ 418 billion needs to be mobilised to connect unconnected households (Amaglobeli et al., 2023). The expected rise in internet penetration (46 per cent in 2021), adoption of AI, 5G, IoT and an ever-increasing reliance of the Indian economy on DPIs require expansion in the number and quality of internet connections. Around 99 per cent of all international data is transferred through a labyrinth of OFC stretching across ocean floors. As of June 2024, there were approximately 600 such active and planned cables, spanning nearly 1.4 million kilometres. Traditionally, undersea cables were owned by telecom carriers who would form a consortium of all parties interested in using the cable. Lately, content providers such as Google, Meta, Microsoft, and Amazon have been major investors, accounting for almost a fifth of the US$ 12 billion in planned investments in new systems over the next four years (The Economist, 2023). Centrally located countries in the global OFC network enjoy faster and cheaper connections to the internet. In view of the economic importance of internet services, and to counter the dominance of BigTech and a handful of countries over the global data pipeline, India could benefit by expanding its OFC connections to the world with targeted policies to crowd in such expenditure by telecommunications firms at a large scale. Strengthening Satellite Network IV.51 An alternative satellite internet backbone for the nation can diversify risk as well as connect remote geographies. In recent years, especially during times of geopolitical tensions and fragmentation, satellite internet has emerged as a critical supplement to OFC. Moreover, satellite internet is crucial for disaster recovery and development of next-generation services like telemedicine, remote education, and for the IoT. Utilising constellations of small, mass-produced satellites, some companies have promised cheap, high-speed internet access throughout the world (Graydon and Parks, 2020). Indian telecom giants have also started exploring satellite internet solutions, and these efforts would get a boost from the recent policy framework to attract FDI in the space sector. Cybersecurity IV.52 Although digital trade increases cybersecurity risks, trade policy can also strengthen cybersecurity (Meltzer and Kerry, 2019). Trade agreements can include commitments to building public and private sector real-time information sharing mechanisms to promote awareness, plan responses, and help targets adapt and respond. They can also help popularise the use of international cybersecurity standards where they exist as a basis for domestic regulation, and help achieve greater uniformity and coordination. Cybersecurity compliance certification schemes may also be used to establish export conformity across jurisdictions in international trade. Under the G20 New Delhi Leaders’ Declaration, India has welcomed the Financial Stability Board’s (FSB’s) recommendations to achieve greater convergence in cyber incident reporting and the updates to the Cyber Lexicon. It has also expressed interest in the initiative to develop a common format for incident reporting exchange (FIRE). Additionally, on the lines of the Financial Action Task Force (FATF), a Financial Cybersecurity Action Task Force with involvement of both the public and private sectors may be needed to create and promote cyber norms to balance innovation and systematic cyber risk within cross-border financial systems (Huang and Madnick, 2020). Role of CBDCs in Cross-Border Payments IV.53 Policy discussions on CBDC have graduated from the preliminary concerns around technology and its impact on cash, bank deposits and monetary policy to more granular, practical, and operational areas such as legal implications, operability across jurisdictions, cross-border payments, and privacy concerns. Pilot projects have been introduced to explore cross-border use cases. Multiple benefits such as financial inclusion, reduction in the cost of printing currency notes, environmental benefits, and creating a more secured and cost-effective settlement mechanism are some of the driving factors prompting central banks to consider the launch of CBDCs and explore its functionality for cross-border transactions. Currently, in more than 90 countries, CBDCs are in various stages of exploration/implementation. IV.54 In October 2020, the G20 endorsed a roadmap to enhance international cross-border payments and the targets stipulated therein are to be achieved by 2027 (Table IV.8). The identified frictions such as fragmented and truncated data formats, intricate compliance checks, restricted operating hours, outdated technology platforms, lengthy transaction chains, funding costs, and limited competition were associated with higher cost, lesser speed, and lower accessibility in cross-border payment infrastructure. The roadmap aims to enhance the existing payment infrastructure, while outlining an international dimension into the design of CBDCs as part of the forward-looking initiatives (FSB, 2023). Table IV.8: Roadmap to Enhance Cross-Border Payments: Global Targets to be Achieved by end-2027 | 1 | 2 | 3 | 4 | Challenges | Retail Payments (< US$ 1,00,000) | Wholesale Payments (>US$ 1,00,000) | Remittances | Cost | Global average cost not more than 1 per cent with no corridor costing more than 3 per cent. | - | Global average cost of remitting US$ 200 not more than 3 per cent (by 2030) with no corridor costing more than 5 per cent. | Speed | 75 per cent of payments to be credited within an hour from payment initiation, the remainder within one business day. | 75 per cent of payments to be credited within an hour from payment initiation or pre-agreed settlement date and time (forward-dated transactions), the remainder within one business day. | 75 per cent of payments to be credited within an hour from payment initiation, the remainder within one business day. | Access | All end-users to have access to at least one infrastructure or provider. | All FIs to have access to at least one infrastructure or provider (multiple infrastructures/ providers wherever appropriate). | More than 90 per cent of individuals who wish to send/receive a remittance should be covered. | Transparency Disclosures | Transaction cost (including fees, charges by intermediaries, foreign exchange rate and currency conversion charges), expected fund delivery timings, payment status tracking and terms/conditions of service. | Source: FSB (2021). | IV.55 Central banks consider CBDCs as an opportunity to streamline and improve cross-border transactions, providing 24/7 settlement even outside closed-loop solutions or those controlled end-to-end by money transfer operators. CBDCs could offer inherent advantages in cross-border transactions by streamlining the cost of international remittances, minimising risks associated with multiple intermediaries, enhancing efficiency through faster settlement times, and providing greater transparency in payment status (Auer et al., 2021). However, the cross-border use of CBDCs may expose EMDEs to various macroeconomic and financial sector risks, including currency substitution, heightened volatility in capital flows and exchange rates, and exacerbation of issues like tax avoidance and illicit activities (BIS, 2021; Chen et al., 2022, and Prasad, 2023). IV.56 Wholesale CBDC developments have doubled in the last two years due to geopolitical environment (Atlantic Council, 2024). There are presently around 13 cross-border CBDC projects, including mBridge, which connects China, Thailand, the UAE, Hong Kong and Saudi Arabia and has more than 26 observing members (BIS, 2024). Central banks are exploring both retail and wholesale cross-border CBDC arrangements (with focus towards the latter), and the ongoing projects endorse both bilateral transactions and multilateral arrangements. One approach to developing cross-border CBDCs involves interlinking individual domestic CBDC systems, making them compatible through adherence to common international and technical standards as well as aligning them to legal, regulatory and supervisory frameworks. Additional interlinkages of CBDC systems can be achieved either through a shared technical interface or a common clearing mechanism (for example, Project Jasper-Ubin and Project Jura), taking into account the member central banks during the development stage itself to reduce reliance on coordinated policy moves in later stages (BIS, 2021). A more nuanced approach involves establishing a single multiple-CBDC (mCBDC) system across jurisdictions, exemplified by projects like Inthanon-LionRock, Aber, mCBDC Bridge, and Dunbar. This concept revolves around having a unified set of rules, a single technical system and a singular set of participants. While this deeper integration and wider access offers potential operational functionality and settlement efficiency, it poses policy challenges and raises governance and control concerns (BIS, 2021). IV.57 In India, apart from enhancing international transactions, cross-border CBDC has the potential to overcome challenges relating to turnaround times, high costs, transparency as well as legal and regulatory requirements across jurisdictions, while reinforcing the role of central bank money as an anchor for cross-border payments. Accordingly, the Reserve Bank is examining bilateral and multilateral collaborations. In this direction, the Reserve Bank has also signed an agreement with Central Bank of United Arab Emirates (CBUAE) in the area of FinTech initiatives including cross-border CBDC payments. To learn about global initiatives and progress, the Reserve Bank has joined the BIS Innovation Hub led multilateral projects ‘Mandala’ and “mBridge” as an “Observer”. Factors Influencing Cross-Border CBDCs IV.58 Several factors such as digitalisation of commerce, the widespread use of private digital currencies, and specific policy concerns related to financial inclusion, informality, and data privacy could influence the adoption of CBDCs (Auer et al., 2023). However, the reasons behind the issuance of CBDCs vary among countries. Duffie (2020) delves deeper into the importance of interoperability in the context of CBDCs, emphasising its role in enhancing efficiency. He (2021) underscores the significant impact of high cross-border remittance costs on both the financial system and the prevalence of unbanked populations, particularly in less-developed regions. Countries also consider external sector implications while adopting cross-border CBDCs (Box IV.3). 4. Data Embassies and India’s Potential IV.59 Data is the pulse of the digital economy. The explosion in the data volume necessitates innovative approaches for data protection and resilience to secure digital information for uninterrupted functioning of the digital economy. Data can be stored within the country in data centres35 through legal provisions such as data localisation policies or housed outside the country in “data embassies”36. IV.60 In recent years, India’s focus has been on developing both data centres and data embassies. This move not only enhances cybersecurity but also ensures that a comprehensive range of financial information is safeguarded in a systematic manner. This aligns with global efforts to strengthen data protection and privacy measures. Data embassies have become a viable option for storing and managing duplicate copies of vital state data outside the domestic territory that ensures data sovereignty, while imparting security and resilience in the event of major cyber threats, natural disasters, and terrorist attacks.37 India is looking to establish data embassies at the GIFT IFSC for countries and businesses looking for digital continuity solutions (GoI, 2023). The establishment of data embassies will primarily be facilitated through bilateral agreements with the interested countries. Multinational corporations could use these embassies to store the data of Indian users within the country. This is expected to give a significant spurt to investment in India’s data industry, especially from technology infrastructure providers and cloud storage companies. This would help India emerge as a major and trusted player offering a full-fledged data storage ecosystem. Box IV.3 Factors Influencing the Adoption of CBDCs Taking cues from Auer et al. (2023), which finds high mobile phone usage and innovation capacity important for CBDC adoption, the role of factors such as volatility in exchange rate, economic development and the share of inward remittances in influencing cross-border CBDC adoption is examined. A sample of 97 countries, which have already announced/implemented some version of CBDC has been analysed using a cross-sectional Probit regression model: where, the probability of a jurisdiction i to announce/ implement a cross-border CBDC project (equals to 1) or not (equals to 0) has been represented as a function of a potential economic/institutional factor xi. α and β represent coefficients and εi denotes error term. Empirical analysis suggests that the level of economic development (measured by per capita GDP) and share in the global inward remittances encourage CBDC adoption, while volatility of exchange rate discourages its adoption (Table 1). Adverse spillovers from volatility in capital flows and exchange rate could accentuate in the presence of cross-border CBDC (Popescu, 2022). On the other hand, the countries with a higher share in the global inward remittances have an inherent advantage in adopting cross-border CBDC as a faster, more efficient, cost effective and secure option for global payment systems. Table 1: CBDC Adoption - Results of Cross-sectional Probit Regression | Dependent Binary Variable: Whether the country has announced/implemented Cross-Border CBDC project (1) or not (0) | 1 | 2 | 3 | 4 | Independent Variables | Specification 1 | Specification 2 | Specification 3 | Constant | 0.24 | -3.93*** | -4.93*** | | (0.89) | (-3.05) | (-3.60) | Exchange Rate Volatility@ | -0.15*** | -0.12** | -0.12** | | (-2.89) | (-2.31) | (-2.18) | Log (Per Capita GDP) | | 0.44*** | 0.53*** | | | (3.39) | (3.85) | Remittance Share$ | | | 0.17** | | | | (2.27) | Observations | 93 | 92 | 92 | McFadden R-squared | 0.12 | 0.22 | 0.26 | @: Standard deviation in the monthly real effective exchange rate over a period of 5 years till December 2023. $: Share in global inward remittances. Note: 1) *** p<0.01, ** p<0.05, * p<0.1. 2) Robust errors (Huber-White). 3) Figures in parentheses are z-statistics. Source: RBI staff estimates. | References: Auer, R., Cornelli, G., and Frost, J. (2023). Rise of the central bank digital currencies. International Journal of Central Banking, 19(4), 185-214. Popescu, A. (2022). Cross-Border Central Bank Digital Currencies, Bank Runs and Capital Flows Volatility, IMF Working Paper No 2022/083. | Encouraging Establishment of Data Centres in India IV.61 The requirement for establishing data centre infrastructure in India is reinforced by the data localisation provision in the Digital Personal Data Protection Act (DPDPA), 2023 for the protection of the digital sovereignty of the citizens in an increasingly connected world. India has enablers in the form of a favourable geographical location, established global connectivity through submarine cables, readily available skilled workforce, a large data consuming market and huge potential for growth in digital infrastructure38. These can lay the foundation for a robust and secure digital ecosystem for fuelling economic growth in India and making India a global data centre hub. IV.62 India’s data centre capacity is estimated to have more than doubled from 521 megawatt (MW) in 2020 to 1048 MW in 2023 in the light of fast-paced rise and spread of digitalisation and growing demand for advanced technologies such as 5G, AI, blockchain and cloud computing (CBRE, 2023). The main drivers creating a conducive environment for development of data centres in India include fiscal incentives, better technology infrastructure and regulatory push. The data centre market in India is, however, still at its nascent stage, relative to both AEs and peer EMEs (Charts IV.15 and IV.16). The Union Budget 2022-23 afforded the status of ‘infrastructure’ to data centres, thereby placing them at par with sectors such as railways, roadways, and power. This has enabled access to long-term credit on improved terms for the development of the sector. Most states in India have defined data centres as ‘essential service’ to ensure uninterrupted operations throughout the year. While most state incentives are in the form of stamp duty exemption, power subsidy and ease of approval, some offer tax benefits and a select few offer capital subsidies. IV.63 The annual investment in data centres in India is expected to be US$ 5 billion by 2025, a CAGR of 6.6 per cent since 2019 (Chart IV.17a). This growth is attributed to India’s increasing internet usage and cloud computing demands with low latency (best speed and fastest response time) and high bandwidth, Government-led digitalisation initiatives, and the localisation efforts of digital service providers (Chart IV.17b). The growing investment in data centres stokes demand for related infrastructure, encompassing India’s IT, electrical, mechanical, and general construction services. As data centres require round-the-clock and large amount of electricity, appropriate policies would be needed to meet the higher energy demand in a sustainable way along with increased role of technology in clean electricity generation. Furthermore, the proper management of e-waste generated by data centres and establishment of green data centres may be encouraged (Raj, 2022). Some voluntary initiatives for greening data centres include switching over to renewable energy and implementing guidance provided by established frameworks such as the Green Data Centre Rating Systems (RBI, 2022c). IV.64 In the aftermath of the pandemic, the proportion of enterprises with no plan for cloud adoption is close to zero, whereas the proportion of enterprises with hybrid cloud which combines both public and private clouds has increased further (Chart IV.18). Public cloud adoption is also increasing. Cloud adoption is mainly guided by cost and performance. IV.65 With a view to enhancing the security, integrity and privacy of financial sector data, the Reserve Bank is in the process of establishing a cloud facility for the financial sector in India. The proposed facility would also facilitate scalability and business continuity (Das, 2023). The cloud facility will be set up and initially operated by the Indian Financial Technology and Allied Services (IFTAS), a wholly-owned subsidiary of the Reserve Bank (RBI, 2024b). Besides, the Reserve Bank is also developing a state-of-the-art greenfield data centre39 to address capacity expansion constraints in catering to the rapidly growing IT ecosystem’s requirements, while also offering a buffer to regions-pecific risks (Patra, 2024). Data Localisation and Ring Fencing IV.66 The multi-fold increase in digital transactions across the financial landscape has necessitated regulatory measures for storage of critical data in the form of data localisation. Data localisation is broadly defined as the requirement of physical storage or processing of data within the territory of the country where it has been generated. Countries view the necessity of localisation measures in the light of growing digital interconnectedness amongst economies, that may have strategic or political implications (Bailey and Parsheera, 2018). As of early 2023, 96 data localisation measures across 40 countries were mandated, prescribing either storage or processing of data within the domestic territory (OECD, 2023b). More than two-third of these measures require domestic storage and prohibit data flow outside the country. Financial, banking and payments sectors have the maximum localisation measures, followed by public sector and telecommunications (Chart IV.19). IV.67 Global revenues from data centres are projected to grow to US$ 575 billion by 2028 from US$ 312 billion in 2022, a CAGR of 10.7 per cent, led by the US (Chart IV.20). The revenue growth presents opportunities for spending on cloud infrastructure services (Chart IV.21). The spending on cloud infrastructure, which has overtaken that on data centre hardware and software, helps accelerate internet penetration, digital transformation initiatives and the rise of e-commerce, especially in developing economies. IV.68 Recognising the primacy of data and its vitality, regulators of various financial domains in India have framed data localisation rules. The Reserve Bank in April 2018 issued the circular on “Storage of Payment System Data” which deals with storage and processing of payments data, constituting end-to-end transaction details and information pertaining to payments. In view of the fast-paced growth in the payment ecosystem, these localisation measures were required to facilitate unrestricted access to all payment data for supervisory purpose. The payment data is to be stored in systems located in India with some exceptions. Even though payments data are allowed to be processed outside India, they have to be brought back to India after processing. The Securities and Exchange Board of India (SEBI) released the circular “Framework for Adoption of Cloud Services by SEBI Regulated Entities” in March 2023, which provides guidelines on data localisation while availing cloud services. It mandates that the storage and processing of data should be done within India’s domestic territory. Furthermore, the regulated entity shall keep the original data/transaction/logs for investors incorporated outside India. Similarly, the Insurance Regulatory and Development Authority of India (IRDAI) requires all insurance records to be stored in data centres located in India. Moreover, the DPDPA, 2023 provides overarching powers to agencies or regulators operating in various areas to frame their own rules on data storage and processing. 5. Challenges to Open Economy Digitalisation IV.69 The challenges to digitalisation in an open economy are multi-faceted, evolving, and far encompassing. These include aspects related to cybersecurity, data privacy, digital rights and access to information, divergent regulatory frameworks, data management and data sovereignty, digital infrastructure gaps and digital divide, skill gaps, job displacements, resource constraints and resistance to adoption of digital technologies, among others. Furthermore, issues related to interoperability and adoption standards, digital governance and accountability, ethical dilemmas and social implications of AI and automation, algorithmic bias and discrimination, digital monopolies and market concentration, digital trust and confidence, and digital disinformation and misinformation also confront policymakers. Intellectual property protection, digital environmental footprint, digital infrastructure resilience, sustainability and preparedness from disruption risks, including possible adverse implications of digitalisation on geopolitical tensions and trade barriers are amongst the other issues facing policy scrutiny. IV.70 There is immense scope for India to contribute to an inclusive global economy through its digitalisation and digital trade. According to the World Bank and the World Economic Forum, while online opportunities are accessible to at least 80 per cent of the population in developed countries, only 35 per cent of the population has access to such opportunities in developing countries. Globally, 19 out of every 100 people had fixed broadband subscriptions in 2023, while the figure for high-income countries was 39 per cent. In contrast, Asia-Pacific and Africa had 19 per cent and 1 per cent fixed broadband subscription penetration, respectively (ITU, 2023). Digital divide can exacerbate inequalities limiting opportunities for economic participation, social inclusion and digital empowerment. Further, there are challenges pertaining to labour market disruptions, generation of e-waste and carbon footprint. Digitalisation could also lead to skill mismatches and polarisation of employment opportunities between high-skilled, technologyintensive jobs and low-skilled, routine tasks susceptible to automation. IV.71 Addressing these challenges require comprehensive strategies and collaborative efforts between governments, businesses, civil society organisations, and other stakeholders to build trust, promote responsible use of technology, and harness the benefits of digitalisation for sustainable development and shared prosperity in an open economy. 6. Concluding Observations IV.72 The digital age provides immense opportunities for India to accelerate its transition from an emerging market economy to an advanced economy. Digitalisation can provide a strong boost to India’s external trade in goods and services, given the country’s relative comparative advantage in modern services exports, which are not conditional upon the geographical proximity of the trading partners. Further, digitalisation in international payment systems has the potential to reduce the cost of receiving remittances, thereby leading to higher remittances and income/savings for the recipients. Cross-border digital trade policies would play a crucial role in harnessing new opportunities, building trust, and facilitating coordination on regulatory aspects like data security and cybersecurity. The internationalisation of the INR is progressing backed by a comprehensive and integrated policy approach. IV.73 Central bank policy initiatives such as interlinkage of FPSs across economies, setting up the system of liquidity bridges and CBDCs are expected to support seamless international transactions, reduce foreign exchange risks and manage global liquidity in an effective manner. India has the potential to revolutionise the global landscape with its DPI. Given solid foundational physical and digital infrastructure, the amount and strength of human capital, and openness to innovation, India can emerge as a major manufacturing hub, leading exporter of services, and provide higher relative returns on global capital. The robustness of India’s DPI, recognised by international bodies like the IMF and the G20 (WEF, 2023), provides a scalable model that can address pressing issues in EMDEs, such as financial inclusion, leakages in welfare payments, education, and ease of doing business. With its commitment towards inclusive growth and sustainable development, India is poised to lead the digital transformation of the Global South, emerging as a pivotal player in setting the agenda for cross-border regulations on DPIs, trade and capital, data, and migration. IV.74 India’s state-of-the-art DPI has enormous potential for enhancing cross-border trade across sectors like finance, health, education, agriculture and MSMEs. These efforts could get a large push from a further deepening of India’s DPI resilience by strengthening self-reliance in sea cables, expanding satellite internet connectivity, making UPI global and providing pro-active policy support to data localisation. To fully harness the potential of India’s DPI, there is a need to leverage the framework of One Future Alliance, wherein EMEs can share their best practices to fasten the process of digitalisation, and gain from its benefits. References ACI Worldwide (2024). 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