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Semantic Web Technology–Based Secure System for IoT-Enabled E-Healthcare Services
Published in Bhawana Rudra, Anshul Verma, Shekhar Verma, Bhanu Shrestha, Futuristic Research Trends and Applications of Internet of Things, 2022
Nikita Malik, Sanjay Kumar Malik
The principal strategy to securing IoT devices is twofold: reducing the number of vulnerable smart things that can be exploited, and influencing the potential attackers, as well as setting up global scheme for punishing the guilty. In wake of the latest IoT attacks that were launched, the top-most recommended actions include (Moh & Raju, 2019): Ensuring that all default credentials be changed and passwords be made strong.Updating the devices whenever the security patches are available.Unless necessary, disabling the UPnP (Universal Plug and Play) setting on routers.Purchasing IoT devices from reputed companies that offer secure devices (Moh & Raju, 2019). IoT devices’ constrained resources and capabilities make service performance challenging, and as the need for customized security and data anonymization becomes essential, security in IoT environments can shift to the level of networks – the edge. The advantages of edge computing and IoT can be used to integrate more resources and provide better added services (Wang et al., 2018). Figure 6.3 shows the relationship between the two technologies.
Protection of Multimedia Content in Distribution Networks
Published in Borko Furht, Darko Kirovski, Multimedia Encryption and Authentication Techniques and Applications, 2006
Ahmet M. Eskicioglu, Edward J. Delp
There are other efforts addressing security in home networking environments. Two notable projects are being discussed by the Video Electronics Standards Association (VESA) [126] and the Universal Plug and Play (UPnP) [127] Forum. VESA is an international nonprofit organization that develops and supports industrywide interface standards for the PC and other computing environments. The VESA and the Consumer Electronics Association (CEA) have entered a memo of understanding that allowed the CEA to assume all administration of the VESA Home Network Committee. The UPnP Forum is an industry initiative designed to enable easy and robust connectivity among stand-alone devices and PCs from many different vendors.
Protection of Multimedia Content in Distribution Networks
Published in Borko Furht, Darko Kirovski, Multimedia Security Handbook, 2004
Ahmet M. Eskicioglu, Edward J. Delp
There are other efforts addressing security in home networking environments. Two notable projects are being discussed by the Video Electronics Standards Association (VESA) [126] and the Universal Plug and Play (UPnP) [127] Forum. VESA is an international nonprofit organization that develops and supports industrywide interface standards for the PC and other computing environments. The VESA and the Consumer Electronics Association (CEA) have entered a memo of understanding that allowed the CEA to assume all administration of the VESA Home Network Committee. UPnP Forum is an industry initiative designed to enable easy and robust connectivity among stand-alone devices and PCs from many different vendors.
Operation twins: production-intralogistics synchronisation in Industry 4.0
Published in International Journal of Production Research, 2023
Mingxing Li, Daqiang Guo, Ming Li, Ting Qu, George Q. Huang
The digital twinning layer plays a crucial role in this framework as it ties the physical and digital PiL together, and acts as the middleware for vertical twinning and horizontal twinning of the PiL. In this layer, a mobile gateway operating system (MGOS) with easy definition, configuration, and execution is designed to virtualise the physical representation into its corresponding digital twin and synchronise them (Guo et al. 2021b). MGOS contains hardware and corresponding software. The hardware (e.g. smart gateway) manages various IoT-enabled devices in a Universal Plug and Play (UPnP) fashion. Meanwhile, the software (e.g. data analytics service, cloud asset agent, and communication protocol) transfers and extracts heterogeneous multi-source data (e.g. material data, machine data, man data, vehicle data, workflow data, and operation data) to create unified digital representations at different levels (e.g. object, product, and system levels) (Guo et al. 2020b). With the support of MGOS, the digital representations will synchronously update when their counterparts change.