From programming-to-modeling-to-prompts smart ubiquitous applications

IF 1.8 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
M. F. Khalfi, Mohammed Nadjib Tabbiche, R. Adjoudj
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引用次数: 0

Abstract

Since its introduction by Mark Weiser, ubiquitous computing has received increased interest in the dawn of technological advancement. Supported by wireless technology advancement, embedded systems, miniaturization, and the integration of various intelligent and communicative devise, context-aware ubiquitous applications actively and intelligently use rich contextual information to assist their users. However, their designs are subject to continuous changes imposed by external factors. Nowadays, software engineering, particularly in the fields of Model-Driven Engineering, displays a strong tendency towards developing applications for pervasive computing. This trend is also fueled by the rise of generative artificial intelligence, paving the way for a new generation of no-code development tools and models specifically trained on open-source code repositories to generate applications from their descriptions. The specificities of our approach lies in starting with a graphical model expressed using a domain-specific language (DSL) composed of symbols and formal notations. This allows for graphically instantiating and editing applications, guiding and assisting experts from various engineering fields in defining ubiquitous applications that are eventually transformed into peculiar models. We believe that creating intelligent models is the best way to promote software development efficiency. We have used and evaluated recurrent neural networks, leveraging the recurrence of processing the same contextual information collected within this model, and enabling iterative adaptation to future evolutions in ubiquitous systems. We propose a prototype instantiated by our meta-model which tracks the movements of individuals who were positive for COVID-19 and confirmed to be contagious. Different deep learning models and classical machine learning techniques are considered and compared for the task of detection/classification of COVID-19. Results obtained from all techniques were evaluated with confusion matrices, accuracy, precision, recall and F1-score. In summary, most of the results are very impressive. Our deep learning approach used a RNN architecture produced up to 92.1% accuracy. With the recent development of OpenAI Codex, optimized for programming languages, we provided the same requirements to the Codex model and asked it to generate the source code for the COVID-19 application, comparing it with the application generated by our workshop.
从编程到建模再到无处不在的智能应用程序
自马克-韦泽(Mark Weiser)提出 "泛在计算"(ubiquitous computing)以来,随着技术的进步,"泛在计算 "越来越受到人们的关注。在无线技术进步、嵌入式系统、微型化以及各种智能和通信设备集成的支持下,情境感知的泛在应用积极而智能地利用丰富的情境信息来帮助用户。然而,它们的设计受到外部因素的影响而不断变化。如今,软件工程,特别是在模型驱动工程领域,呈现出为普适计算开发应用程序的强烈趋势。生成式人工智能的兴起也推动了这一趋势,为新一代无代码开发工具和模型铺平了道路,这些工具和模型在开源代码库中经过专门训练,可根据代码库的描述生成应用程序。我们的方法的特点在于,首先使用由符号和形式化符号组成的特定领域语言(DSL)来表达图形模型。这样就可以图形化地实例化和编辑应用程序,指导和协助来自不同工程领域的专家定义无处不在的应用程序,并最终将其转化为特殊的模型。我们相信,创建智能模型是提高软件开发效率的最佳途径。我们使用并评估了递归神经网络,利用该模型中收集的相同上下文信息的递归处理能力,实现了对泛在系统未来发展的迭代适应。我们提出了一个由我们的元模型实例化的原型,它可以跟踪 COVID-19 阳性并被证实具有传染性的个体的移动。针对 COVID-19 的检测/分类任务,我们考虑并比较了不同的深度学习模型和经典机器学习技术。通过混淆矩阵、准确度、精确度、召回率和 F1 分数对所有技术得出的结果进行了评估。总之,大多数结果都令人印象深刻。我们的深度学习方法采用了 RNN 架构,准确率高达 92.1%。最近,OpenAI Codex 针对编程语言进行了优化,我们向 Codex 模型提供了相同的要求,并要求它生成 COVID-19 应用程序的源代码,将其与我们研讨会生成的应用程序进行比较。
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来源期刊
Journal of Ambient Intelligence and Smart Environments
Journal of Ambient Intelligence and Smart Environments COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, INFORMATION SYSTEMS
CiteScore
4.30
自引率
17.60%
发文量
23
审稿时长
>12 weeks
期刊介绍: The Journal of Ambient Intelligence and Smart Environments (JAISE) serves as a forum to discuss the latest developments on Ambient Intelligence (AmI) and Smart Environments (SmE). Given the multi-disciplinary nature of the areas involved, the journal aims to promote participation from several different communities covering topics ranging from enabling technologies such as multi-modal sensing and vision processing, to algorithmic aspects in interpretive and reasoning domains, to application-oriented efforts in human-centered services, as well as contributions from the fields of robotics, networking, HCI, mobile, collaborative and pervasive computing. This diversity stems from the fact that smart environments can be defined with a variety of different characteristics based on the applications they serve, their interaction models with humans, the practical system design aspects, as well as the multi-faceted conceptual and algorithmic considerations that would enable them to operate seamlessly and unobtrusively. The Journal of Ambient Intelligence and Smart Environments will focus on both the technical and application aspects of these.
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