The Experts below are selected from a list of 8286 Experts worldwide ranked by ideXlab platform
Mingang Chen - One of the best experts on this subject based on the ideXlab platform.
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AIWAC: Affective interaction through wearable computing and Cloud Technology
IEEE Wireless Communications, 2015Co-Authors: Mingang Chen, Yonghua Li, Yin Zhang, Min Chen, Mohammad Mehedi Hassan, Yong Li, Atif AlamriAbstract:To reduce the heavy burden from rapidly growing demands of healthcare service, wearable computing-assisted healthcare has been proposed for health monitoring and remote medical care. Although the provisioning of healthcare services can be significantly enhanced via wearable-enabled technologies, great challenges arise due to the lack of a human-centric mechanism for affective interaction. In this article, we propose a novel architecture, Affective Interaction through Wearable Computing and Cloud Technology (AIWAC), which includes three components: collaborative data collection via wearable devices, enhanced sentiment analysis and forecasting models, and controllable affective interactions. Based on the proposed architecture, we present our AIWAC testbed, design a practical mechanism for wearable computing-based emotional interaction, and discuss its open problems, which inspire potential research as a new direction.
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UIC/ATC/ScalCom - A Novel Automated Software Test Technology with Cloud Technology
2014 IEEE 11th Intl Conf on Ubiquitous Intelligence and Computing and 2014 IEEE 11th Intl Conf on Autonomic and Trusted Computing and 2014 IEEE 14th I, 2014Co-Authors: Mingang ChenAbstract:This paper studies the software test with automated test tool under Cloud environment. The automated software test Technology could speed up the test efficiency and less down the work of test engineers. On the Cloud Technology, the automated test tool should make some modification to adapt for Cloud. The paper proposes the test integrated Technology with automated test tool on Cloud-based environment. This Technology connects Cloud-based environment and the automated test tool. The fully test procedure also are proposed to support test design, script develop and script execute. The Cloud Technology is used to test some applications with the automated test tool and archive the expected outcome.
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A Novel Automated Software Test Technology with Cloud Technology
2014 IEEE 11th Intl Conf on Ubiquitous Intelligence and Computing and 2014 IEEE 11th Intl Conf on Autonomic and Trusted Computing and 2014 IEEE 14th I, 2014Co-Authors: Mingang Chen, Lizhi CaiAbstract:This paper studies the software test with automated test tool under Cloud environment. The automated software test Technology could speed up the test efficiency and less down the work of test engineers. On the Cloud Technology, the automated test tool should make some modification to adapt for Cloud. The paper proposes the test integrated Technology with automated test tool on Cloud-based environment. This Technology connects Cloud-based environment and the automated test tool. The fully test procedure also are proposed to support test design, script develop and script execute. The Cloud Technology is used to test some applications with the automated test tool and archive the expected outcome.
Chi-hung Hwang - One of the best experts on this subject based on the ideXlab platform.
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I2MTC - Universal environmental surveillance system with instrument Cloud Technology
2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2013Co-Authors: Po Jui Chen, Jung Hsing Wang, Tai-shan Liao, Chien-hung Chen, Yu Chieh Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
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Universal environmental surveillance system with instrument Cloud Technology
Conference Record - IEEE Instrumentation and Measurement Technology Conference, 2013Co-Authors: Po-quang Chen, Jung Hsing Wang, Chih Chen Chen, Tai-shan Liao, Yue Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
Panita Wannapiroon - One of the best experts on this subject based on the ideXlab platform.
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Knowledge engineering management system on Cloud Technology for externship students
2016 IEEE International Conference on Teaching, Assessment, and Learning for Engineering (TALE), 2016Co-Authors: Anuchit Anupan, Prachyanun Nilsook, Panita WannapiroonAbstract:This paper presents knowledge engineering management system on Cloud Technology for externship students. The objectives of this research were: 1) to develop knowledge engineering management system on Cloud Technology for externship students, 2) to evaluate efficiency of knowledge engineering management system on Cloud Technology for externship students. The samples were 7 experts in the field of information Technology. The data was analyzed by arithmetic mean and standard deviation.
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Development of Collaborative Learning Using Case-based Learning via Cloud Technology and Social Media for Enhancing Problem-solving Skills and ICT Literacy within Undergraduate Students
Procedia - Social and Behavioral Sciences, 2015Co-Authors: Jarumon Nookhong, Panita WannapiroonAbstract:This study is conducted in terms of research and development aiming for developing collaborative learning using case-based learning via Cloud Technology and social media. The research process is divided into 2 phases: 1) the development of collaborative learning using case-based learning via Cloud Technology and social media, and 2) the affirmation of collaborative learning using case-based learning via Cloud Technology and social media. The research samples are five experts selected by purposive sampling. The research instruments are the model of collaborative learning using case-based learning via Cloud Technology and social media, and the evaluation of the model's appropriateness analyzed by means and standardized deviations statistically. The research result shows that: 1. There are four components consisted in the model which are 1) the principles of instruction model, 2) the objective of instruction model, 3) the instruction process which is divided into 2 stages: 3.1) the preparation process before actual instruction, and 3.2) the operation of instruction, and 4) evaluation and examination of data collection. 2. The five experts assessed the instruction model, and pointed out that the developed instruction model is highly appropriate. This shows that the developed instruction model can be used for enhancing problem-solving skills and ICT literacy, and improve the instruction as a whole effectively.
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Development of a Challenge Based Learning Model via Cloud Technology and Social Media for Enhancing Information Management Skills
Procedia - Social and Behavioral Sciences, 2015Co-Authors: Sathaporn Yoosomboon, Panita WannapiroonAbstract:This research was conducted for research and development purposes. The aims of this study were to: 1) design a challenge based learning model via Cloud Technology and social media for enhancing information management skills. Students can then use this Technology as a tool for learning, and 2) to evaluate the use of the challenge based learning model via Cloud Technology and social media for enhancing information management skills. The research methods are divided into two phases. The first phase involves the design of the model and the second phase involves model evaluation. The sample group in this research consisted of nine experts in the field of design challenge based learning, Cloud Technology, social media and information management skills. These experts were selected by purposive sampling. Data has been analyzed using arithmetic mean and standard deviation. The research findings are organized as follows: 1) studying the contents, 2) arranging the challenge based learning process and 3) summarizing the results. The process of developing the challenge based learning model consisted of the following five stages: 1) the big idea, 2) the essential question, 3) the challenge: guiding question, guiding activity, 4) the solution section and 5) the assessment: publishing the student sample and reflection. The objective of the model is to help develop information management skills. The experts agree that a learning activity was appropriate for this activity.
Jung Hsing Wang - One of the best experts on this subject based on the ideXlab platform.
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I2MTC - Universal environmental surveillance system with instrument Cloud Technology
2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2013Co-Authors: Po Jui Chen, Jung Hsing Wang, Tai-shan Liao, Chien-hung Chen, Yu Chieh Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
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Universal environmental surveillance system with instrument Cloud Technology
Conference Record - IEEE Instrumentation and Measurement Technology Conference, 2013Co-Authors: Po-quang Chen, Jung Hsing Wang, Chih Chen Chen, Tai-shan Liao, Yue Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
Tai-shan Liao - One of the best experts on this subject based on the ideXlab platform.
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I2MTC - Universal environmental surveillance system with instrument Cloud Technology
2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC), 2013Co-Authors: Po Jui Chen, Jung Hsing Wang, Tai-shan Liao, Chien-hung Chen, Yu Chieh Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
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Universal environmental surveillance system with instrument Cloud Technology
Conference Record - IEEE Instrumentation and Measurement Technology Conference, 2013Co-Authors: Po-quang Chen, Jung Hsing Wang, Chih Chen Chen, Tai-shan Liao, Yue Chen, Chi-hung HwangAbstract:Environmental surveillance system is significant for environmental researches by means of providing abundant physical information around the target environment. In this article, a universal environmental surveillance system that utilizes the instrument Cloud Technology is presented for any kinds of outdoor or indoor monitoring applications. The architecture of the universal environmental surveillance system is consisted of three main components, including multi-sensors module, data management processor and Cloud server. Based on the hierarchical relationship, the system facilitates the process of data transmission. Moreover, the unique data format and the device management list prompt an overwhelming advantage of flexibility on device management during operation. All sensor data are stored in a discrete database referring to the corresponding sensor ID and accessing time. Owing to the Cloud Technology, researchers can access the data archives everywhere after logging in the website to share the valuable information with one another.
