Building an Effective Security Program for Distributed Energy Resources and Systems. Mariana Hentea

Building an Effective Security Program for Distributed Energy Resources and Systems - Mariana Hentea


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apply a collaborative security approach as described in [IntSoc 2015b].

      2.1.1.5 Challenges

      A number of potential challenges may stand in the way of the IoT vision – particularly in the areas of security; privacy; interoperability and standards; legal, regulatory, and rights issues; and the inclusion of emerging economies [IntSoc 2015a]. As concluded in this report, there is a need to address IoT challenges and maximize its benefits while reducing its risks.

      While IoT technology can benefit several stakeholders, if the proper technology standards and policies are not in place, the backlash could easily stifle innovation [Palermo 2014].

      Over the next 10–15 years, the IoT is likely to develop fast and shape a newer information society and knowledge economy, but the direction and pace with which developments will occur are difficult to forecast [Santucci 2010]. In order to reap the full benefits of such a technological disruption, resolutions are recommended to address these challenges in Europe [Santucci 2011]:

       Mobilize a critical mass of research and innovation effort for the creation of new products, processes, and services.

       Develop a new definition of privacy for a changed world.

       Protect the different building blocks of the IoT, considering how these blocks will work together and what kind of interoperable security mechanisms must be created, and to assure a certain level of security during the cooperation among IoT multiple actors, especially human beings, machines, and objects.

       Develop ethics for the IoT by promoting an important dialogue between computer scientists and the broader public and by bridging the digital divide between those with access to technology and those without.

      Another challenge is the big data trend. The IoT connects everything with everyone in an integrated global network. People, machines, natural resources, production lines, logistics networks, consumption habits, recycling flows, and virtually every other aspect of economic and social life will be linked via sensors and software to the IoT platform, continually feeding big data to every node – businesses, homes, vehicles – moment to moment, in real time. Big data, in turn, will be processed with advanced analytics, transformed into predictive algorithms, and programmed into automated systems to improve thermodynamic efficiencies, dramatically increase productivity, and reduce the marginal cost of producing and delivering a full range of goods and services to near zero across the entire economy.

      Another concern regarding IoT technologies pertains to the environmental impacts of the manufacture, use, and eventual disposal of all these semiconductor‐rich devices. Modern electronics are replete with a wide variety of heavy metals and rare earth metals, as well as highly toxic synthetic chemicals. This makes them extremely difficult to recycle properly. Electronic components are often simply incinerated or dumped in regular landfills, thereby polluting soil, groundwater, surface water, and air.

      However, the next evolutionary stage of the IoT is touted by the IoE technology.

      2.1.2 Internet of Everything (IoE)

      The Internet of Everything is a technology concept that sees previously unconnected objects and processes converging with the ones that are digital first by their nature. This all‐encompassing convergence of physical and digital domains is set to disrupt individual organizations and entire industries like nothing before [ABI Research 2015b]. ABI Research defines the IoE market as a combination of the IoT, Internet of Digital, and Internet of Humans. Value at stake drives in the connection of everything.

Schematic illustration of the Internet of Everything.

      Source: [ABI Research 2015a]. Printed based on courtesy of ABI Research Internet of Everything Market.

      According to ABI Research market tracker of 2019 for IoE, the forecast for 2023 is that IoT will represent 54% of IoE, a higher percentage than Internet of Digital evaluated at 43%.

       Internet of Digital includes PCs and digital home and mobile devices.

       Internet of Humans includes wearable computing.

       IoT includes utilities and industrial IoT, smart cities and buildings, retail advertising and supply chain, connected car, and smart home.

Schematic illustration of ABI Research Market Forecast for Internet of Everything.

      Source: Based on courtesy of ABI Research Internet of Everything Market Tracker, 2019.

Schematic illustration of the internet of Everything connected in a large distributed network. Schematic illustration of the core attributes of a perspective of the Wi-Fi Internet of Everything.
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