Ever-changing market conditions and a rapidly changing IT landscape call for fast and cheap ways to meet software demands. In order to tackle these problems, low-code development platforms (LCDPs) have emerged. These ...
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Ever-changing market conditions and a rapidly changing IT landscape call for fast and cheap ways to meet software demands. In order to tackle these problems, low-code development platforms (LCDPs) have emerged. These platforms are designed with the idea to limit recurring traditional hand-coding and programming. This article provides a theoretical overview of low-code solutions. The advantages and disadvantages of using LCDP in the creation of automated systems are considered. In conclusion, a conclusion is formulated about the prospects of using low-code technology.
This study explores the problem of skipping station during production due to human error in the single backtracking process of lowcodeplatform. First, introduce the background and significance of the project, as wel...
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ISBN:
(纸本)9798400716485
This study explores the problem of skipping station during production due to human error in the single backtracking process of lowcodeplatform. First, introduce the background and significance of the project, as well as the possible problems caused by batch jumping. Then, the design of the whole system and the design of the whole control process are described in detail. Finally, the application of important function module is introduced in detail. Finally, the feasibility of this method is verified by practical operation, and the convenience of lowcodedevelopmentplatform is used to provide a solid support for the digital process of industry.
Digitalisation, rapid and low-cost development, and a new communication base between business and IT are driving the rise of low-code development platforms (LCDPs). Picking up on this promise, this paper reports on ou...
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ISBN:
(纸本)9781665424844
Digitalisation, rapid and low-cost development, and a new communication base between business and IT are driving the rise of low-code development platforms (LCDPs). Picking up on this promise, this paper reports on our experiences with the development capabilities of three leading LCDPs: Microsoft PowerApps, Mendix and OutSystems. We present how to develop the same example application on each of these platforms. Two relevant development scenarios are considered. The first scenario describes the development of an independent application entirely implemented on an LCDP. Whereas the second scenario focuses on developing a dependent application using an existing local backend. The results of this paper may contribute to future research on the development potentials of LCDPs and the improvement needs of existing ones.
low-code is a growing development approach supported by many platforms. It fills the gap between business and IT by supporting the active involvement of non-technical domain experts, named Citizen Developer, in the ap...
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ISBN:
(纸本)9781450381352
low-code is a growing development approach supported by many platforms. It fills the gap between business and IT by supporting the active involvement of non-technical domain experts, named Citizen Developer, in the application development lifecycle. low-code introduces new concepts and characteristics. However, it is not investigated yet in academic research to point out the existing challenges and opportunities when testing low-code software. This shortage of resources motivates this research to provide an explicit definition to this area that we call it low-code Testing. In this paper, we initially conduct an analysis of the testing components of five commercial low-code development platforms (LCDP) to present low-code testing advancements from a business point of view. Based on the low-code principles as well as the result of our analysis, we propose a feature list for low-code testing along with possible values for them. This feature list can be used as a baseline for comparing low-code testing components and as a guideline for building new ones. Accordingly, we specify the status of the testing components of investigated LCDPs based on the proposed features. Finally, the challenges of low-code testing are introduced considering three concerns: the role of citizen developer in testing, the need for high-level test automation, and cloud testing. We provide references to the state-of-the-art to specify the difficulties and opportunities from an academic perspective. The results of this research can be used as a starting point for future research in low-code testing area.
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