In addition, it is a pleasure to mention that this research is framed into two projects: POLOLAS (TIN2016-76956-C3-2-R), which is funded by Spanish Ministry of Economy and Competitiveness; and TRoPA (Early Testing in Medical Robotics Process Automation) (CEI-12), which is funded by Andalusian Regional Ministry of Economy, Knowledge, Business and University.
Blockchain technology promises to spark a real revolution. One of most important concepts associated with this technology is smart contracts, which enable the automatic execution of agreements and augur a world without intermediaries. The conditions and rules of "contracts" are established in a computer codes and trust is enforced by consensus among the participants. One relevant feature associated with smart contract is the immutability property, which establishes the non-alteration of blockchain network data after the clauses of the contract are been approved by all parties or entities involved. For this reason, smart contract development requires more effort and care than the development of other common programs. They require systematic mechanisms to collect requirements and functional specifications. In addition, it is necessary to verify and validate the agreed functionality and the implemented code before they are deployed in the blockchain platform. This paper presents a systematic literature review of primary studies in the field of Software Development Life Cycle, focusing on model-based software design and testing in the blockchain domain of smart contracts. This research aims to identify gaps and/or opportunities for further research. After carried out this review, it was observed that no clear methodology exists for evaluating and validating the quality either of this software or the overall development process. This means that software developers may implement smart contract code in which bugs and serious security vulnerabilities appear when the software is delivered to their customers.
The use of smart contract augurs a world without intermediaries because the code and the agreements contained therein exist across a distributed, decentralized blockchain network. In software engineering, this collaboration is usually represented by using business process models and smart contracts can be used to implement business collaborations in general and inter-organizational business processes. The validation of this contract and the assurance of its quality are critical for its right application. Early testing in smart contract definition is the fact of this paper. The paper discusses the possibility to use transformation protocols to obtain derived artefacts like test case definitions and smart contract code scaffolds. Generation of derived artefacts significantly reduces the number of defects before deploying the smart contract code in the blockchain network. Transformations protocols are created using model-based software development and modelling techniques. This approach allows to simplify and improve the management and execution of collaborative business processes. This would allow, in addition, the application of systematic mechanisms to evaluate and validate the smart contract and, particularly, the application of early testing techniques which would help to reduce the number of defects and, ultimately, the cost of the final review.
One of the key benefits of blockchain technology is its ability to keep a permanent, unalterable record of transactions. In business environments, where companies interact with each other without a centralized authority to ensure trust between them, this has led to blockchain platforms and smart contracts being proposed as a means of implementing trustworthy collaborative processes. Software engineers must deal with them to ensure the quality of smart contracts in all phases of the smart contract lifecycle, from requirements specifications to design and deployment. This broad scope and criticality of smart contracts in business environments means that they have to be expressed in a language that is intuitive, easy-to-use, independent of the blockchain platform employed, and oriented towards software quality assurance. In this paper we present a key component: a first outline of a UML-based smart contract meta-model that would allow us to achieve these objectives. This meta-model will be enriched in future work to represent blockchain environments and automated testing.
The pandemic suffered in 2020 following the appearance of the SARS-CoV-2 virus has marked a radical change in the way in which the basic pillars of international, and more specifically Spanish, society are understood. The existing social and economic model has had to adapt abruptly and urgently to the reality of what has happened. The impact that these changes will have after the pandemic is still unclear, but it may be surmised that many of them are here to stay. The use of information and communication technologies has been critical in the pandemic scenario and also in the health environment, where factors like telemedicine have come to play a key role for society. This work presents an initial analysis of how degrees in Medicine train students for telematic work with patients and provides a series of reflections based on the pandemic which may serve as a point of departure for future studies.
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