Invented by Shyam Krishnamoorthy, Samuel John Young, Jonathan I. Turow, Calvin Yue-Ren Kuo, James Christopher Sorenson, III, Alan Conrad Rawcliffe, Marco Argenti, Amazon Technologies Inc

The market for device communication environment is rapidly expanding as more and more devices become interconnected. With the rise of the Internet of Things (IoT), there is a growing need for devices to communicate with each other seamlessly and efficiently. Device communication environment refers to the network and infrastructure that enables devices to exchange information and interact with each other. This environment includes various technologies such as wireless communication protocols, cloud computing, and data analytics. One of the key drivers of the market for device communication environment is the increasing adoption of IoT devices across various industries. IoT devices, such as smart home appliances, wearable devices, and industrial sensors, rely on efficient communication to function properly. As the number of IoT devices continues to grow, the demand for robust device communication environments will also increase. Another factor contributing to the growth of this market is the advancement in wireless communication technologies. The development of 5G networks, for example, will provide faster and more reliable connectivity, enabling devices to communicate in real-time. This will be particularly beneficial for applications that require low latency, such as autonomous vehicles and remote healthcare monitoring. Cloud computing is also playing a crucial role in the device communication environment market. Cloud platforms provide a centralized location for storing and processing data generated by devices. This allows for easier management and analysis of device data, leading to improved decision-making and operational efficiency. Furthermore, the increasing focus on data security and privacy is driving the demand for secure device communication environments. As more sensitive information is being transmitted between devices, there is a need for robust security measures to protect against cyber threats. This has led to the development of encryption technologies and secure communication protocols, further fueling the growth of the market. In terms of geographical regions, North America is expected to dominate the market for device communication environment due to the presence of major technology companies and early adoption of IoT devices. However, Asia Pacific is also witnessing significant growth in this market, driven by the rapid industrialization and increasing investments in smart city projects. Overall, the market for device communication environment is poised for substantial growth in the coming years. The increasing adoption of IoT devices, advancements in wireless communication technologies, and the need for secure and efficient communication are all contributing to this growth. As more devices become interconnected, the demand for robust and reliable device communication environments will continue to rise.

The Amazon Technologies Inc invention works as follows

A computing environment is disclosed. It receives requests from devices for services available in the environment and forwards communications from the environment to devices that are registered with it. Devices are assigned a device identification that allows them to be identified and authenticated. Requests can also be sent from the environment. Each device registered with the computing environment keeps track of its state information. The state information changes as the device interacts and interacts with it. Devices can request functions from the computing environment. The environment determines what processing is required to fulfill the request.

Background for Device communication environment

Electronic devices are everywhere. It is not unusual for people to use their smart phones, tablet devices, and laptop computers during the course of an average day. Electronic systems are used to monitor and control almost every aspect of our automobiles. Electronic systems are used to drive and control modern home appliances, such as washers, dryers and refrigerators. Electronic sensors and control systems are now used in manufacturing facilities, heating and cooling systems for buildings, and farming equipment.

Even the simplest electronic device can now communicate with other systems and devices thanks to advances in communication technology. An electronic device embedded in a manufacturing system can monitor different aspects of the production process and send monitoring data to the other devices within the system. Electronic sensors embedded in building control systems can monitor and transmit details about the operation of a building’s heating and cooling systems. “Even home appliances and switches can be configured to have communication capabilities in order to transmit statuses and receive external control.

BRIEF DESCRIPTION DES DRAWINGS

The following description of the illustrative examples can be understood better when read with the accompanying drawings. The disclosed systems and method are not limited to the depicted embodiments.

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FIG. “FIG. 16 is a flow chart of an example response to a device state request.

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