Internet of Things Clause Samples

Internet of Things. AWS IoT AWS Mobile Hub Amazon API Gateway Amazon Cognito AWS Device Farm

Internet of Things. (IoT) Services

Internet of Things. SECURITY (IT)‌ 15.1 The organization implements controls and processes to ensure risks are accounted for and managed in the use of Internet of Things (IoT) devices including, but not limited to, physical devices, No vehicles, appliances and other items embedded with electronics, software, sensors, actuators, and network connectivity which enables these devices to connect and exchange data. IoT security includes, at a minimum: • Developing policies and standards specific to IoT assets; • Ensuring the secure configuration of IoT assets; • Conducting risk assessments prior to implementation, and throughout the lifecycles of IoT assets; • Segmenting IoT networks from the rest of the organization’s networks; and • Ensuring least privilege and strong authentication controls are implemented. Supplemental Information 15.2 As applicable, list and describe any IoT devices used across your organization and detail how those devices are secured physically, administratively, and technically. Include information on network segmentation, access and authentication, and security updates. 15.3 Optional - Please provide any additional information relative to this control area.

Internet of Things. Global Technological and Societal Trends. Aarborg, Denmark: River Publishers.

Internet of Things. 30 5.3. 3D and media Internet 31

Internet of Things. Internet of Persons

Internet of Things. Internet-of-Things (IoT) solutions are complex and require expertise in disciplines as diverse as electrical engineering, cloud native development, and data analytics. Whether it’s an end-user facing product or a solution to improve operational efficiencies, we’ve worked with customers to build custom hardware, cloud platform and applications across various use cases, including the following: • Predictive maintenance: Move beyond a scheduled or reactive maintenance model to one that predicts failures before they cause costly downtime. • Asset or fleet tracking: Gain visibility into supply chain and/or logistics operations with real-time tracking of works, equipment and cargo indoors and out. • Remote monitoring: Monitor and be alerted to issues with asset health, production outputs, and equipment efficiency from a centralized location to enable data driven decisions. • Smart products: Connect consumers and business users with products that enhance their way of living and working through micro-interactions and valuable insights. • Occupancy monitoring: Plan and improve utilization of commercial, industrial, shared, and other spaces by monitoring where and how people spend their time. • Digital therapeutics: Combine connected devices, software, and intelligent analytics to create digital therapeutics that connect with patients outside of a clinical setting. • Contact tracing: Work safely by combining occupancy monitoring with wearable sensors to identify and respond to potential exposure between your workforce. Described below are the services Rackspace provides for IoT. Kickstart the IoT journey by working with Rackspace experts to define and develop a solution roadmap that maximizes ROI through analysis of business challenges and goals. Activities include: • Review the IoT landscape, including technologies, business drivers, challenges, and common uses. • Brainstorm and review use cases, through working backwards sessions focused on business outcomes. • Refine and rationalize use cases with a focus on business value, feasibility, and time to market. • Define development roadmap, including proofs of concept to validate technical constraints and demonstrate business value.

Internet of Things. ‌ The Internet is one of the most impactful innovations in human history. It permits the interconnection of all traditional computing devices that use the TCP/IP model throughout the world [28]. In the past few decades, the Internet has mainly been used for people to exchange news, information, literature, entertainment material and other data. Gradually, the Internet landscape has changed to include connectivity to everything, i.e., the Internet of Things (IoT). The IoT is a network of physical components (i.e., things) like sensors, motors (large or small) smart phones, power switches, etc. These ‘things’ communicate together to achieve some functionality using the Internet as a communication platform. As a simple home application for IoT, one can imagine a refrigerator that senses the lack of a bottle of milk in the designated place on the shelf. The refrigerator is connected to the Internet through an IoT communication node employing Wi-Fi or Bluetooth. The refrigerator may send a message to the head of the household to remind him/her to buy milk. The refrigerator may also be configured to directly make the order to the local store. While this example is a simple one for home use, the same concept is also used for more serious industrial applications. Sensors may sense mal-functioning parts, missing parts, parts that need maintenance or attention or even some hazardous situation. These sensors, which have Internet connection, send the information with the appropriate data to the relevant parties to take the needed actions. There is no exact definition for IoT in the literature as it can be seen from different perspectives. "Important work is being done by the IEEE Internet initiative in order to find a conceptual IoT definition. ITU defines IoT as being an infrastructure that will connect physical and virtual devices. IETF defines IoT as being the Internet that considers TCP/IP and Non-TCP/IP suites at the same time and the things as being “objects” identified by unique addresses. IEEE, in its special report on Internet of Things, defines it as a network that connects devices having sensing capabilities. The IEEE Internet initiative gives its own definition as follows: The Internet of Things is a network that connects uniquely identifiable virtual and physical devices, using existing or new communications protocols. These Things are dynamically configurable and have interfaces that must be accessible distantly through the Internet"[28]. The term ’Inter...

Internet of Things. In the Internet of Things, everyday objects, rooms, and machines are connected to one another and to the larger digital world. In this environment, for example: • Mobile phones would pay for things like subway fare or cosmetics from a Web site; • Radio Frequency Identification (RFID) tags would be used to monitor access to VIP clubs and passes for ski lifts; • Sensors, robotics and nanotechnologies would enable a balanced lifestyle and independent living by supporting seamless digital life recording, active stress prevention, well-being and fitness, and assisted living; • Sensors on expensive factory equipment would tell people when the machinery is about to fail; • Cargo shipping containers could search their contents for nuclear material or other hazards; • Every office could report its temperature and humidity and whether its lights are on or off; • Each foot of a geographical area’s streets and highways could monitor traffic flow; • In the home environment the fridge could talk to the microwave, the microwave to the nearby toaster, and the toaster to the stove. Therefore, Internet of Things is not just putting Radio Frequency Identification tags on some dull thing so smart people know where that dull thing is. It is about embedding intelligence so things become smarter and do more than they were proposed to do. The move from today’s Internet of Machines to tomorrow’s Internet of Things reflects several visible shifts: 28 ▇▇▇.▇▇▇▇▇-▇▇▇▇▇▇.▇▇ • from systems to software based services; • from passive RFID tags to wireless sensors; • from Web 2.0 to the Semantic Web; • from high-technology to trusted technology; • from features and options to experienced sense and simplicity; • from always-on to always-responsive, and from exposure to privacy. The Internet of Things means the fusion of the physical and digital worlds: • Physical entities have digital counterpart; • Objects become context-aware – they can sense, communicate and interact; • Immediate responses can be given to physical phenomena; • Instant information can be collected about physical entities; • Intelligent real-time decision making becomes possible, thus opening up new opportunities to handle incidents, meet business requirements, create new services based on real-time physical world data, gain insights into complex processes and relationships, address environmental degradation (pollution, disaster, global warming), monitor human activities (work, criminal, health, military), improve infrastr...