Internet of Things or “IoT” shall mean the network of physical objects, devices, vehicles, buildings and other items embedded with electronics, software, sensors, actuators and network connectivity that enables these various objects to collect and exchange data;
Internet of Things means that a device connected to the Internet can communicate directly with other devices, a group of devices or a platform. The communication possi- bilities range from the transmission of simple status mes- sages, such as the current temperature, to complex control commands for industrial equipment or the implementa- tion of future-oriented and liveable as well as energy-opti- mised living concepts.
Internet of Things means the interconnection via the Internet of computing devices embedded in everyday objects, enabling them to send and receive data;
Examples of Internet of Things in a sentence
Internet of Things (IoT): A vision, architectural elements, and future directions.
The Internet of Things is an illustration of how the radio signal conveyance underpinning electronic communications continues to evolve and shape societal and business reality.
Virtual assistants can act as a single gateway in, for example, a smart home environment and record significant amounts of relevant data on how users interact with products connected to the Internet of Things, including those manufactured by other parties and can replace the use of manufacturer-provided interfaces such as touchscreens or smart phone apps.
In Proceedings of the 2014 IEEE World Forum on Internet of Things (WF-IoT), Seoul, Korea, 6–8 March 2014; pp.
Internet of Things equipment is considered terminal equipment if it is directly or indirectly connected to a public communications network.
More Definitions of Internet of Things
Internet of Things or “IoT” means the network of physical objects that are embedded with sensors, software, and other technologies for the purpose of connecting and exchanging data with other devices and systems over the internet.
Internet of Things means that devices are reachable in an easy way over a network by remote applications. Manufacturers designing a hydra enabled device have to care about adding the device to the network. For small devices, like sensors, this can be realized using a Hydra proxy. Gateways are responsible to build a connected network even over different physical network types like Ethernet, Bluetooth or Zigbee.
Internet of Things describes a vision where objects become part of the Internet, where every object is uniquely identified, and accessible to the network, its position and status known, and where services and intelligence are added to this expanded Internet, fusing the digital and physical world, ultimately impacting our professional, personal and social environments [4]. The IoT is a technological revolution that represents the future of computing and communications; its development depends on dynamic technical innovation in a number of important fields, such as wireless sensors. The purpose of the IoT consists in the facilitation of information exchanges about, among other things or goods in global supply chain networks, i.e., the IT-infrastructure should provide information about “things” in a secure and reliable manner. Extending the initial application scope, the IoT might also serve as the backbone for ubiquitous computing, enabling smart environments to recognize and identify objects, and retrieve information from the Internet to facilitate their adaptive functionality[8]. Through the study of the IoT technology, the idea of combining IoT with Wireless Sensor Network (WSN) is proposed, which demonstrates the integration feasibility of the RFID and WSN technology [4]. In order to improve the efficiency of logistics enterprises, all aspects in the transport process should be monitored, which requires applying the IoT technology into the logistics management system [10]. WSN is a wireless network consisting of spatially distributed autonomous devices using sensor nodes to monitor physical or environmental conditions cooperatively [1]. However, the sensor node is limited by the energy resource, memory, computation, communication capability, etc [5]. Therefore, the topology of a Cluster-based Wireless Sensor Network (CWSN) has been proposed to prolong the lifetime of WSNs by decreasing the energy consumption of nodes [7]. The reliability of the node is one of the most important requirements of a successful CWSN. In order to provide a reliable environment in CWSN, a mechanism to allow a set of nodes to agree on an agreement value is required. The Byzantine Agreement (BA) problem [6,9] is one of the most fundamental problems in which an agreement value is reached in a distributed system. Some examples of such applications are the commitment problem in a distributed database system, the clock synchronization problem, and the landing task controlled by a flight path finding sy...
Internet of Things. A survey on the security of IoT frameworks”. In: Journal of Information Secu- rity and Applications 38 (2018). [cited 18-11-2021], pp. 8–27. issn: 2214-2126. doi: https :// doi . org / 10 . 1016 / x. xxxx . 2017 . 11 . 002. url: https : //xxx.xxxxxxxxxxxxx.xxx/xxxxxxx/xxxxxxx/xxx/X0000000000000000.
Internet of Things. ► Complexity scales linearly with desired security level, unlike RSA, ECC. 2128 Security level (AES–128) ECC 283 AE B16, F256 Gain Cycles Gates Wtd. Perf. Cycles Gates Wtd. Perf. 164,823 29,458 4,855,355,934 71.7x 85,367 77,858 6,646,503,866 3,352 20,206 67,730,512 98.1x 70,469 195,382 13,768,374,158 203.3x Wtd. Perf. is Weighted Performance (clock cycles × gate count) and represents time and power usage. Gate counts are for 65nm CMOS. ECC data taken from A Flexible Soft IP Core for Standard Implementations of Elliptic Curve Cryptography in Hardware, X. Xxxxxxxx and X. Xxxxxxxx, 2013 IEEE 20th International Conference on Electronics, Circuits, and Systems (ICECS), 12/2013. ► The AE key exchange is a nonabelian Diffie–Xxxxxxx exchange. ► The underlying algebraic structure is not (Z/NZ)× or E (Fq), but rather × ) Mn(Fq) (n n matrices over Fq), ) Bn (the braid group on n strands). ► Private keys: a pair R = (m, µ) of a matrix and braid. ► Public keys: a pair P = (M, σ) of a matrix and a permutation in Sn. ► Each user also knows a fixed ordered list of elements of Fq (T-values). ► The shared secret: same kind of pair as the public key. ► The security level depends on n, q and the lengths of the private braids (and scales linearly with the lengths of the braids). ► The (maximum) security level for AE is n · lg q, not (lg q)/2 as in ECC. In particular one can use moderately sized finite fields, not multiprecision finite fields. ► The hard computational problem underlying AE takes place in the braid group Bn, and is known as the Simultaneous conjugacy separation search problem. This is not the same computational problem underlying earlier braid group schemes, and AE is not “Braid Group Cryptography.” A braid on n strands is a collection of n entangled strings. We can represent a braid by a left-right crossing sequence of signed nonzero integers i1i2 · · · ik , (“Artin generators”) each of which lies between −n and n. ► A positive integer i means “cross the i th strand under the (i + 1)st strand.” ► A negative integer −i means “cross the i th strand over the (i + 1)st strand.”
Internet of Things has the meaning set forth within the definition of Privacy and Security Laws and Standards.
Internet of Things means a system of interrelated, internet-connected objects that are able to collect and transfer data over Company IT Systems, Company Products or other Company assets.