Journals Menu
Follow SCIRP
Contact us
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Advances in Internet of Things

Advances in Internet of Things

Advances in Internet of Things

ISSN Print: 2161-6817
ISSN Online: 2161-6825
www.scirp.org/journal/ait
E-mail: ait@scirp.org
"A Study of Efficient Power Consumption Wireless Communication Techniques/ Modules for Internet of Things (IoT) Applications"
written by Mahmoud Shuker Mahmoud, Auday A. H. Mohamad,
published by Advances in Internet of Things, Vol.6 No.2, 2016
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] LAMBS: Light and Motion Based Safety
[2] Integration of IoT in building energy infrastructure: A critical review on challenges and solutions
Renewable and Sustainable …, 2023
[3] Enhancing low‐temperature energy harvesting by lead‐free ferroelectric Ba(Zr0.1Ti0.9)O3
Journal of the …, 2023
[4] Power-bandwidth tradeoff for ultra-low power MFSK and G-MFSK systems
IEEE Access, 2023
[5] Edge Computing Smart Healthcare Cooperative Architecture for COVID-19 Medical Facilities
IEEE Latin America …, 2022
[6] Design and Implementation of Fault Diagnosis System for Power Internet of Things Equipment Based on Neural Network
Mobile Information Systems, 2022
[7] The Indoor Space Layout of University Laboratories Based on Wireless Communication and Artificial Intelligence Decision-Making
Wireless Communications and Mobile Computing, 2022
[8] Secured‐KDS: Secret key distribution and authentication scheme for resource‐constrained devices
IET Networks, 2022
[9] Performance research on ZigBee wireless sensor network self-organizing network for 220 kV four-circuit transmission lines on the same tower
… Energy Technologies and …, 2022
[10] Passive-Awake Energy Conscious Power Consumption in Smart Electric Vehicles Using Cluster Type Cloud Communication
International Journal of …, 2022
[11] Investigating the Impact of Green Marketing Components on Purchase Intention: The Mediating Role of Brand Image and Brand Trust
Sustainability, 2022
[12] Impact of LoRA and 5G on Smart Manufacturing from Automation Perspective
Journal of Mobile …, 2022
[13] Radio Frequency Characteristics of InGaAs FE-FETs With Scaled Channel Length
… on Electron Devices, 2022
[14] Wireless communication protocols in smart agriculture: A review on applications, challenges and future trends
Ad Hoc Networks, 2022
[15] Towards Self-Powered WSN: The Design of Ultra-Low-Power Wireless Sensor Transmission Unit Based on Indoor Solar Energy Harvester
Electronics, 2022
[16] Influential variables impacting the reliability of building occupancy sensor systems: A systematic review and expert survey
Science and Technology for the …, 2022
[17] A survey on IoT fog nano datacenters
Wireless Networks, 2022
[18] Unmanned Aerial System-Based Data Ferrying over a Sensor Node Station Network in Maize
Shea, CMU Neale… - Sensors, 2022
[19] Multi-frame Scheduling for Federated Learning over Energy-Efficient 6G Wireless Networks
IEEE INFOCOM 2022-IEEE Conference on …, 2022
[20] URLLC and eMBB in 5G Industrial IoT: A survey
IEEE Open Journal of …, 2022
[21] Data Exchange Techniques for Internet of Robotic Things: Recent Developments
IEEE Access, 2022
[22] Energy-efficient long range wide area network for construction industry applications
Automation in Construction, 2022
[23] Demystifying Wireless Technologies for Best Uses in IoT Echo-Systems
2022 2nd International Conference of Smart …, 2022
[24] Embedded compressive sampling (CS) algorithm under ultra-low rate wireless communication for long-term bridge monitoring
Sensors and Smart …, 2022
[25] Innovative Concepts and Applications for Smart Water Cities: Towards Integrated Management of Network-based Urban Water Infrastructure
2022
[26] Personal-Internet-of-Things (PIoT): A vision for hyper-personalization delivered securely
2022 IEEE Delhi Section …, 2022
[27] WSN-based loT platform for smart monitoring
… and Mobile Computing …, 2022
[28] LSITA: An Integrated Framework for Leveraging Security of Internet of Things Application with Remote Patient Monitoring System
2022
[29] IoT-Based Blood Quality Monitoring: Using LoRaWAN
… on Smart Internet of …, 2022
[30] Design of IOT-Based Flood Warning System
Innovative Trends in Hydrological and …, 2022
[31] Green Federated Learning over Wireless Networks
2022
[32] An Overview of IoT-Based Architecture Model for Smart Home Systems
… on Intelligent Systems …, 2022
[33] Low-power Mesh Network Based on Message Queue Telemetry Transport Broker for Industrial IoT with Long Short-term Memory Forecasting
Sensors and Materials, 2022
[34] Application: Body-Coupled Communication
Secure, Low-Power IoT Communication Using …, 2022
[35] Pradeep Chindhi
Printed Antennas: Design …, 2022
[36] Design and development of a mobile application for configuring and using wildlife trackers
2022
[37] Software based encoder/decoder generation for data exchange optimization in the internet of things
2022
[38] Sistema de interoperabilidad para tecnologías celulares e inalámbricas establecidas en los estándares IEEE 802.15. 1, IEEE 802.15. 4, IEEE 802.11
2021
[39] Tavarajunan jarrujen toiminnan varmistus automaattisesti langattomalla mittausjärjestelmällä
2021
[40] Elektronski vgrajeni sistem za spremljanje osvetlitve v prostoru
2021
[41] BÁO CÁO TỔNG KẾT ĐỀ TÀI KHOA HỌC VÀ CÔNG NGHỆ MÔ HÌNH HỆ THỐNG THEO DÕI LỊCH TRÌNH VÀ THỜI GIAN CHỜ XE BUÝT CHO NGƯỜI …
2021
[42] Intelligent Mechanisms for Node Search and Task Offloading in the Internet of Things Networks
2021
[43] CLOUD BASED ENERGY MANAGEMENT IN BUILDINGS USING IoT FOR EFFICIENT USE OF UTILITY POWER
2021
[44] Energy consumption in wireless IoT-A Review
… International Journal of …, 2021
[45] Effectiveness of the Nigerian emergency management system with respect to building collapses, human stampedes and electrical power failures
2021
[46] Internet of Things for Environment Protection and Sustainable Living
Green Technological Innovation for Sustainable …, 2021
[47] Energy-efficient and miniaturized radio frequency systems for biomedical implants
2021
[48] Efficient, sustainable and secure use of smart city resources
2021
[49] INTEGRATION OF MESSAGE QUEUE TELEMETRY TRANSPORT PROTOCOL AND CONSTRAINED APPLICATION PROTOCOL FOR DATA COMMUNICATION IN …
2021
[50] Intelligent SDN-Based Multi-protocol Selector for IoT-enabled NMT Networks
Rahamneh, JJ Astrain… - 2021 IEEE 4th …, 2021
[51] Rectenna Designs for Energy Harvesting IoT Devices: Overview of Current Trends and Future Directions
… on Electrical, Computer …, 2021
[52] Power Management for Energy Harvesting in IoT–A Brief Review of Requirements and Innovations
2021 IEEE International …, 2021
[53] Adaptive transmit power control algorithm for dynamic lora nodes in water quality monitoring system
Sustainable Computing: Informatics and Systems, 2021
[54] Cloud-Based Remote RFID Authentication for Security of Smart Internet of Things Applications
2021
[55] A Mechanism For Women Safety With Help Of Iot And Smart Devices
2021
[56] A Review of Energy Harvesting in Localisation for Wireless Sensor Node Tracking
2021
[57] An efficient networking solution for extending and controlling wireless sensor networks using low-energy technologies
PeerJ Computer …, 2021
[58] Triboelectric Effect Enabled Self-Powered, Point-of-Care Diagnostics: Opportunities for Developing ASSURED and REASSURED Devices
2021
[59] Smart Home System Using Internet of Things Devices and Mesh Topology
2021 6th International Conference on …, 2021
[60] Industrial Internet of Things (IIoT) Framework for Real-Time Acoustic Data Analysis
Machine Intelligence and Smart Systems, 2021
[61] Toward IoT fog computing-enabled system energy consumption modeling and optimization by adaptive TCP/IP protocol
Jabi - PeerJ Computer Science, 2021
[62] TAVARAJUNAN JARRUJEN TOIMINNAN VARMISTUS AUTOMAATTISESTI LAN-GATTOMALLA MITTAUSJÄRJESTEL-MÄLLÄ
2021
[63] Desenvolvimento de Colete com Sensores Embarcados para Aplicação Civil e Militar
2021
[64] Towards sustainable smart IoT applications architectural elements and design: opportunities, challenges, and open directions
2021
[65] New Product Development Processes for IOT-Enabled Home Use Medical Devices: A Systematic Review
2021
[66] How Far Are We from Achieving Self‐Powered Flexible Health Monitoring Systems: An Energy Perspective
2021
[67] Concept Development of a User Interface for Remote Tank Monitoring of IBC Tanks
2021
[68] TSN: Performance Creative Choreography Based on Twin Sensor Network
2021
[69] A multi-mode R-TENG for self-powered anemometer under IoT network
2021
[70] IoT in 5th Generation Wireless Communication
2021
[71] Jamming on LoRaWAN Networks: from modelling to detection
2021
[72] Applying IoT and Data Analytics to Thermal Comfort: A Review
2021
[73] Wireless Power for IoT
2021
[74] Enhancing environmental and energy monitoring of residential buildings through IoT
2021
[75] Wireless Remote Control-Security System for Entrances (WRC-SSE)
2021
[76] LoRa-Based Infrastructure for Medical IoT System
2021
[77] Efficient Energy Management in Smart Homes using IOT-based Low-Power Wide-Area Network (LoRaWAN) Protocol
2020
[78] Smart home automation in the IoT era: A communication technologies review
2020
[79] Multi-network technology cloud-based asset-tracking platform for IoT devices
2020
[80] A SCHEDULING-BASED ALGORITHM FOR LOW ENERGY CONSUMPTION IN SMART AGRICULTURE PRECISION MONITORING SYSTEM
2020
[81] Low power consumption and reliability of wireless communication network in intelligent parking system
2020
[82] Power Transformer Fault Diagnosis System Based on Internet of Things
2020
[83] From serendipity to sustainable Green IoT: technical, industrial and political perspective
2020
[84] Monitoring System of Transmission Line in Mountainous Area Based on LPWAN
2020
[85] Design and Performance Analysis for Short Range, Very Low-Power Communications
2020
[86] An Input Power-Aware Maximum Efficiency Tracking Technique for Energy Harvesting in IoT Applications
2020
[87] Wireless Networks: Types, Implementations, and Applications
2020
[88] treNch: Ultra-Low Power Wireless Communication Protocol for IoT and Energy Harvesting
2020
[89] Energy Consumption Analysis of LPWAN Technologies and Lifetime Estimation for IoT Application
2020
[90] Edge Machine Learning for AI-Enabled IoT Devices: A Review
2020
[91] Energy aware optimization for low power radio technologies
2020
[92] An Overview of Wireless Technologies for IoT Network
2020
[93] LoRaWAN Temperature Sensors for Local Government Asset Management
2020
[94] Survey: Classification of the IoT Technologies for Better Selection to Real Use
2020
[95] Evaluation of LoRa Technology in Flooding Prevention Scenarios
2020
[96] Red de sensores inalámbricos para mantenimiento predictivo PdM E-2019
2020
[97] IEEE 802.11 ah Network Planning for IoT Smart Meter Application: Case Study in Bandung Area Perancangan Jaringan IEEE 802.11 ah untuk Aplikasi Smart …
2020
[98] IEEE 802.11 ah network planning for IoT smart meter application: case study in Bandung Area
Jurnal …, 2020
[99] Hybrid Power Management System for LoRa Communication Using Renewable Energy
2020
[100] Challenges in the Area of IoT
2020
[101] Quality control of land nodal seismic recording systems
2020
[102] Design of rapid monitoring system of geological disaster based on LoRa
2020
[103] Cloud based low-power long-range iot network for soil moisture monitoring in agriculture
2020
[104] Back-end Reference Architecture for Smart Water Meter Data Gathering Service
2020
[105] A–Z survey of Internet of Things: Architectures, protocols, applications, recent advances, future directions and recommendations
2020
[106] Recent Advances in Information and Communications Technology (ICT) and Sensor Technology for Monitoring Water Quality
2020
[107] LoRa-Based Medical IoT System Architecture and Testbed
2020
[108] The Industry Internet of Things (IIoT) as a Methodology for Autonomous Diagnostics in Aerospace Structural Health Monitoring
2020
[109] Resource Management in Mobile Networks for Machine-to-Machine Communication
2020
[110] Perancangan jaringan IEEE 802.11 ah untuk aplikasi smart meter IoT: studi kasus di wilayah Bandung
Jurnal …, 2020
[111] Analysis of Wireless Communication Technologies: Developing and Implementing a Testbed for Remote Monitoring of a Renewable Energy System
2020
[112] Optimizing the lifetime of wireless sensor networks using deep reinforcement learning in a software-defined network architecture
2019
[113] Nesnelerin interneti temelli uygulamalarda kullanılabilecek düşük güçlü kablosuz haberleşme protokollerinin karşılaştırılması
2019
[114] Smart Neighbourhood: LoRa-based environmental monitoring and emergency management collaborative IoT platform
2019
[115] Studi Performansi Jarak Jangkauan LoRa OLG01 sebagai Infrastruktur Konektivitas Nirkabel IoT
2019
[116] Low-Power Electrical Impedance Spectroscopy device to assess plants physiological state based on LoRaWAN wireless networks
2019
[117] Air Pollution Monitoring and Alarming System via Internet of Things
2019
[118] A Reputation Mechanism to Support Cooperation of IoT Devices⋆,⋆⋆
2019
[119] A Self-Synchronizing, Low-Power, Low-Complexity Transceiver for Body-Coupled Communication*
2019
[120] LoRA based, low power remote monitoring and control solution for Industry 4.0 factories and facilities
2019
[121] IOT-VERKKOTEKNOLOGIOIDEN SUORITUSKYKY
2019
[122] Environmental Noise Monitoring Using Distributed IoT Sensor Nodes
2019
[123] Effect of Event-Based Sensing on IoT Node Power Efficiency. Case Study: Air Quality Monitoring in Smart Cities
2019
[124] Wireless communication protocols for home automation exploring the security and privacy aspects of smart home IoT devices communicating over the Z-Wave …
2019
[125] Water Flow Driven Sensor Networks for Leakage and Contamination Monitoring in Distribution Pipelines
2019
[126] An Internet of Things (IoT) Application on Volcano Monitoring
2019
[127] Performance evaluation of LoRa LPWAN technology for IoT-based blast-induced ground vibration system
2019
[128] Demonstration site for Smart Water Cities-Smart Campus Innsbruck
2019
[129] LoRa protocol analysis and performance evaluation using Raspberry Pi equipment
2019
[130] Smart Campus: An Experimental Performance Comparison of Collaborative and Cooperative Schemes for Wireless Sensor Network
2019
[131] A review of LoRa technology and its potential use for rural development in Indonesia
2019
[132] A Remote Monitoring System for Charging Stations with Photovoltaic Generation
2019
[133] Implementing Efficient and Multi-Hop Image Acquisition In Remote Monitoring IoT systems using LoRa Technology
2019
[134] Automated classification of hand movements using tunable-Q wavelet transform based filter-bank with surface electromyogram signals
2019
[135] RiverCore: IoT device for river water level monitoring over cellular communications
2019
[136] Field Research Cooperative Wearable Systems: Challenges in Requirements, Design and Validation
2019
[137] IoT Enabled Machine Learning for Vehicular Air Pollution Monitoring
2019
[138] 생체신호의 광역 사용을 위한 지그비 모듈 성능 분석및 프로토타입 개발
2019
[139] Performance evaluation of a long-range marine communication system for fishing buoy detection
2019
[140] A Single-Inductor Dual-Input Dual-Output DC–DC Converter for Photovoltaic and Piezoelectric Energy Harvesting Systems
2019
[141] Network selection criterion for ubiquitous communication provisioning in smart cities for smart energy system
2019
[142] Trends in metering potable water
2019
[143] LoRa protocol analysis and performance evaluation using PyCom equipment
2019
[144] 생체신호의 광역 사용을 위한 지그비 모듈 성능 분석 및 프로토타입 개발
2019
[145] Anomaly detection for IoT time-series data: A survey
2019
[146] Titkos üzenet száll a széllel!(IoT-benhasznált vezeték nélküli adatátviteli technológiák összehasonlítása)
2019
[147] Módulo de Comunicação para Smart Meters
2019
[148] Intelligent Public Health Management System using Internet of Things
2019
[149] An Efficient Energy Management in Buildings Using IoT–A Survey
2019
[150] EnerMon: IoT power monitoring system for smart environments
2019
[151] Wireless Sensor Network Prototype to Monitor the Condition of Holding Furnaces in the Aluminum Casting Plant
2019
[152] ICT in Business and the Public Sector
2019
[153] THE PURDUE UNIVERSITY GRADUATE SCHOOL STATEMENT OF THESIS APPROVAL
2019
[154] Boosting energy efficiency of NB-IoT cellular networks through cooperative relaying
2018 IEEE 29th annual …, 2018
[155] Implementación de protocolo de comunicaciones para IOT.
2018
[156] Wireless Body Area Networks for Child Healthcare Monitoring: A Review
2018
[157] Development of a Long-Range Marine Communication System for Fishery Buoy Searching
2018
[158] Power Management Techniques in Popular Operating Systems for IoT Devices
2018
[159] IoT-nätverk baserade på LoRaWAN: Informationskvalitet i LoRaWAN
2018
[160] A Battery-Less BLE IoT Motion Detector Supplied by 2.45-GHz Wireless Power Transfer
2018
[161] On Track of Sigfox Confidentiality with End-to-End Encryption
ARES 2018 Proceedings of the 13th International Conference on Availability, Reliability and Security, 2018
[162] Energy Efficiency Analysis of Centralized-Synchronous LoRa-based MAC Protocols
2018
[163] IoT-based remote pain monitoring system: From device to cloud platform
2018
[164] Research on data aggregation and transmission planning with Internet of Things technology in WSN multi-channel aware network
The Journal of Supercomputing, 2018
[165] Social Internet of Vehicles: Complexity, Adaptivity, Issues and Beyond
2018
[166] A Power Saving Hybrid Technique for IoT
Modern Applied Science, 2018
[167] A Comparative Survey of LPWA Networking
2018
[168] Solar Panels and LoRaWAN
2018
[169] Choosing IoT‐connectivity? A guiding methodology based on functional characteristics and economic considerations
Transactions on Emerging Telecommunications Technologies, 2018
[170] An Event-Driven Simulation for WSN Clustering Algorithm
2018
[171] Area coverage of heterogeneous wireless sensor networks in support of Internet of Things demands
Computing Computing and Visualization in Science, 2018
[172] Towards the self-powered Internet of Things (IoT) by energy harvesting: Trends and technologies for green IoT
2018
[173] Multi-Criteria Selection of the Wireless Communication Technology for Specialized IoT Network
2018
[174] Design of a Data Acquisition and Transmission System for Smart Factory Based on NB-IoT
2018
[175] Security Challenges in Computing System, Communication Technology and Protocols in IoT system
2018
[176] Experimental Verification of Wireless Power Transfer Ability to Sustain the Operation of LoRaWAN Based Wireless Sensor Node
2018
[177] An Experimental Analysis of SNR Performance for LoRa Communication
2018
[178] „Internet of things (IoT): a survey on protocols and security risks”
2018
[179] Internet of Things (IoT) and Cloud Computing based Persistent Vegetative State Patient Monitoring System: A remote Assessment and Management
2018
[180] Resource Management for Edge Computing in Internet of Things (IoT)
2018
[181] Sistema de monitoramento de parâmetros de processos industriais utilizando a tecnologia Lora®
2018
[182] LoRaWAN-Low Power WAN Protocol for IoT
2017
[183] SITE: The simple internet of things enabler for smart homes
2017
[184] LoRaWAN—A low power WAN protocol for Internet of Things: A review and opportunities
2017
[185] Comparative Study of Communication Interfaces for Sensors and Actuators in the Cloud of Internet of Things
International Journal of Internet of Things, 2017
[186] An Internet of Energy Things Based on Wireless LPWAN
Engineering, 2017
[187] Modeling the Energy Performance of LoRaWAN
Sensors, 2017
[188] Implementation and Analysis of LPWAN Technology using LoRa Architecture
2017
[189] Human Activity Detection System Using Internet Of Things
International Journal on Computer Science and Engineering, 2017
[190] Fog Computing-Based Smart Health Monitoring System Deploying LoRa Wireless Communication
IETE Technical Review, 2017
[191] Comparison of Wireless Communication Technologies used in a Smart Home: Analysis of wireless sensor node based on Arduino in home automation scenario
Thesis, 2017
[192] Integrated Circuit and System Design for Cognitive Radio and Ultra-Low Power Applications
2017
[193] Bluetooth Automation IO, and its place in a Cable Replacement Solution
2017
[194] ТЕХНОЛОГІЯ НИЗЬКОШВИДКІСНОЇ ПЕРЕДАЧІ ДАНИХ LORA
2017
[195] On the Application of IoT: Meteorological Information Display System Based on LoRa Wireless Communication
IETE Technical Review, 2017
[196] IEEE technology report on wake-up radio: an application, market, and technology impact analysis of low-power/low-latency 802.11 wireless LAN interfaces
2017
[197] A Noise-Resilient Sparse Subspace Clustering Algorithm for Image Sequences
2017
[198] Energy harvesting wireless sensor nodes in an AAL environment
2017
[199] Computation offloading and resource allocation for low-power IoT edge devices
2016
[200] WIRELESS MOBILE COMMUNICATION SWITCHING FROM 4G TO 5G: AN OVERVIEW OF CURRENT AND FUTURE TRENDS
2016
[201] Design of Power Converter and Wireless Data Acquisition System for TEG Energy Harvester
2016
[202] Internet of things enabled real time water quality monitoring system
2016
[203] A compact corner truncated microstrip patch antenna for radio frequency energy harvesting to low-power electronic devices and wireless sensors
[204] Energy Consumption in Multi-BD Symbiotic Radio System assisted 6G Network: A QoS Constraint Approach
[205] RETRACTED CHAPTER: Industrial Internet of Things (IIoT) Framework for Real-Time Acoustic Data Analysis
[206] Secure, Low-Power IoT Communication Using Edge-Coded Signaling
[207] Color-Temperature Performance of Perovskite Solar Cells Under Indoor Illumination
Follow SCIRP
Twitter Facebook Linkedin Weibo
Contact us
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat
Free SCIRP Newsletters
Copyright © 2006-2023 Scientific Research Publishing Inc. All Rights Reserved.
Top