Abstract
At present, it has been developed in automation technology for many years. Especially, the Internet of Things technology is quite mature. However, in the Internet of Things technology, there is a lack of rapid processing of distributed task service architecture. In most IoT models, active ones are mainly implemented through human operations, take the service to a hardware device system. Especially when it is necessary to expand to many device operations, it is necessary to use the Internet of Things for service applications, it will face the problem of not being able to operate at the same time. This research proposes an innovative IoT platform architecture, which improves the problem of only single behavioral event processing for existing connected devices and provides more different context application services.
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References
Abdelshkour M (2015) IoT, from Cloud to Fog Computing, Cisco Blogs. https://blogs.cisco.com/perspectives/iot-from-cloud-to-fog-computing
Alaya MB, Banouar Y, Monteil T, Chassot C, Drira K (2014) OM2M: extensible ETSI-compliant M2M service platform with self-configuration capability. Procedia Comput Sci 32:1079–1086
Chang Y-C, Li J-W, Lv J-H (2018) OSGi-based IP multimedia subsystem services gateway. In: 2018 IEEE International Conference on Applied System Invention (ICASI). IEEE: Tokyo, Japan, pp 658–660
Datta SK, Bonnet C, Nikaein N (2014) An IoT gateway centric architecture to provide novel M2M services. In: 2014 IEEE world forum on internet of things (WF-IoT), IEEE, Seoul, Korea
Datta SK, Gyrard A, Bonnet C, Boudaoud K (2015) oneM2M architecture based user centric IoT application development. In: 2015 3rd international conference on future internet of things and cloud, Rome, Italy, pp 100–107
Hong H-J, Tsai P-H, Hsu C-H (2016) Dynamic module deployment in a fog computing platform. In: 2016 18th Asia-Pacific Network Operations and Management Symposium (APNOMS), IEEE: Kanazawa, Japan
Hsu T-C, Chen Y-C, Chang D-M, Chang C-H, Yang H (2017) Software design using IOT architecture to discuss the application research of M2M architecture mechanism. In: NCS 2017 national computer conference, Taiwan, pp 737–741
Liyanage M, Chang C, Srirama SN (2016) mePaaS: mobile-embedded platform as a service for distributing Fog computing to edge nodes. In: 2016 17th international conference on parallel and distributed computing, applications and technologies (PDCAT), IEEE: Guangzhou, China
Lopez HJD, Sung M, Huerta I (2017) Connected vehicles the Internet of Things and fog computing. In: 2017 IEEE international conference on service operations and logistics, and informatics (SOLI), IEEE: Bari, Italy
OM2M (2018) Open source platform for M2M communication. http://www.eclipse.org/om2m/
Patel P, Ali MI, Sheth A (2017) On using the intelligent edge for IoT analytics. IEEE Intell Syst 32(5):64–69
Sheng QZ, Stroulia E, Tata S, Bhiri S (2016) Revisiting service-oriented architecture for the IoT: a middleware perspective. In: 14th international conference on service oriented computing (ICSOC), Alberta, Canada, pp 3–17
Shi J, Cao J, Zhang Q, Li Y, Xu L (2016) Edge computing: vision and challenges. IEEE Internet Things J 3(5):637–646
Swetina J, Lu G, Jacobs P, Ennesser F, Song J (2014) Toward a standardized common M2M service layer platform: introduction to oneM2M. IEEE Wirel Commun 21(3):20–26
Yun J, Teja RC, Chen N, Sung N-M, Kim J (2016) Interworking of one M2M-based IoT systems and legacy systems for consumer products. In: 2016 International Conference on Information and Communication Technology Convergence, IEEE: Jeju, South Korea, pp 423–428
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Chang, DM., Hsu, TC., Yang, H. et al. An M2M computing model for improving the performance among devices. Microsyst Technol 27, 1467–1474 (2021). https://doi.org/10.1007/s00542-019-04382-7
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DOI: https://doi.org/10.1007/s00542-019-04382-7