"Theoretical study and analysis of advanced wireless sensor network techniques in Internet of Things (IoT)"

"Wireless sensor networks those based on the Internet of Things (IoT) have evolved fast in numerous areas in recent years. Devices and sensors may interact with each other without human involvement in the IoT network. An IoT-based system where people and things are connected by wired and wireless technology including Wireless Sensor Networks (WSNs), ZigBee, NFC, RFID, GPRS, LTE, and Bluetooth is now one of the most popular technical ideas. The potential of the Internet of Things (IoT) has received enormous attention from the corporate and scientific communities during the past 10 years. The IoT can provide a number of significant benefits to application spaces. Researchers may be able to show crucial facts about IoT-based smart environmental monitoring systems. IoT has faced a variety of challenges, including authentication, differentiating evidence, accessibility and security and protection. Sociotechnical trust systems have also been examined in the past in various studies (STTS). Existing smart settings are now dealing with serious IoT security, protection, and STTS challenges. Trust-the-board will be highlighted and characterized, as well as how it should be utilized in the Internet of Things. As a result, the potential benefits of data aggregation solutions that use less energy while increasing the organization\u2019s lifespan are enormous. IoT-WSN data aggregation methods and computations have been reimagined. Specifically, this article examines the writing with reference to the views of sensor systems administrators in order to preserve energy and gather data."

近年来，基于物联网（Internet of Things, IoT）的无线传感器网络（Wireless Sensor Networks, WSNs）在诸多领域实现了迅猛发展。物联网网络中的设备与传感器可在无需人类干预的前提下实现相互交互。当前，一类由有线与无线技术（涵盖无线传感器网络、ZigBee、近场通信（NFC）、射频识别（RFID）、通用分组无线服务（GPRS）、长期演进（LTE）以及蓝牙（Bluetooth））实现人与万物互联的物联网系统，已成为最受关注的技术理念之一。过去十年来，物联网的发展潜力受到了企业界与科学界的广泛关注。物联网可为各类应用场景带来诸多显著益处。研究人员可针对基于物联网的智能环境监测系统呈现关键实证数据。物联网面临着诸多挑战，包括认证、证据鉴别、可访问性以及安全与防护问题。社会技术信任系统（Sociotechnical Trust Systems, STTS）也已在过往的多项研究中得到探讨。当前的智能环境正面临着严峻的物联网安全、防护以及社会技术信任系统挑战。本文将重点阐述并刻画信任治理机制，并探讨其在物联网中的应用路径。因此，采用低能耗方案、可延长网络生命周期的数据聚合技术，其潜在益处极为可观。基于物联网的无线传感器网络的数据聚合方法与计算模型已得到重新构想与优化。具体而言，本文结合传感器系统管理人员的视角展开相关论述，旨在实现节能目标并完成数据采集任务。