AUTHOR=Fabrizio Nadia , Rossi Elisa , Martini Andrea , Anastasovski Dimitar , Cappello Paolo , Candeago Lorenzo , Lepri Bruno TITLE=Invoice Discounting: A Blockchain-Based Approach JOURNAL=Frontiers in Blockchain VOLUME=2 YEAR=2019 URL=https://www.frontiersin.org/journals/blockchain/articles/10.3389/fbloc.2019.00013 DOI=10.3389/fbloc.2019.00013 ISSN=2624-7852 ABSTRACT=

Invoice discounting is a market with a double-digit potential growth rate over the next years in Europe and worldwide. The main benefit of invoice discounting is the acceleration of cash flow from customers to suppliers: suppliers get advance payments from the bank rather than waiting for the customers to pay. Hence, thanks to the quick availability of capital, businesses can invest in expansion and growth. More specifically, one of the most relevant problems today is how to provide better and faster invoice discounting services while preventing double spending and maintaining risk low. The blockchain frameworks have the potential to provide the right solution and thus to revolutionize the invoice discounting process. The benefits for suppliers, customers and financial institutions are related to the increased transparency added to the whole discounting process and the following risk reduction for the banks due to the capability to enhance the entire process and to reduce the double spending. In our paper, we introduce a blockchain-based invoice discounting system, called Distributed Ledger Invoice, and we propose a novel assessment method for evaluating currently available blockchain solutions for the invoice discounting scenario. Moreover, we also discuss two main issues regarding the information accessibility and the interoperability. In particular, since blockchain is still an emerging technology interoperability is a key factor for blockchain's adoption in inter-banking processes, where different blockchain solutions might be used. In this work we propose a decoupling layer, based on the Attribute-Based Access Control language, to unify the access control to reserved information across heterogeneous blockchains.