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IEEE 2030.5 - ADOPTION OF ZIGBEE 13-0200-00-SMART ENERGY PROFILE 2.0 APPLICATION PROTOCOL STANDARD Organization: IEEE
Date: 2013-10-31
Description: With respect to the OSI network model, the Smart Energy Profile 2.0 Applicati...
DS/EN 300328 V1.8.1 - ELECTROMAGNETIC COMPATIBILITY AND RADIO SPECTRUM MATTERS (ERM); WIDEBAND TRANSMISSION SYSTEMS; DATA TRANSMISSION EQUIPMENT OPERATING IN THE 2,4 GHZ ISM BAND AND USING WIDE BAND MODULATION TECHNIQUES; HARMONIZED EN COVERING THE ESSENTIAL REQUIREMENTS OF ARTICLE 3.2 OF THE R&TTE DIRECTIVE Organization: DS
Date: 2012-12-10
Description: Examples of Wide Band Data Transmission equipment are equipments such as IEEE 802.11 RLANs [i.3], Bluetooth® wireless technologies, Zigbee, etc.
ITU-T - H.810 - (PRE-PUBLISHED) INTEROPERABILITY DESIGN GUIDELINES FOR PERSONAL HEALTH SYSTEMS Organization: ITU-T
Date: 2016-07-01
Description: PHD-IF further consists of design guidelines on the use of a transport technology i.e. NFC, USB, Bluetooth, Bluetooth LE and ZigBee for a specific certified capability. An overview of the capabilities defined under each of these transport technologies.
CEN - EN 16836-2 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 2: NETWORKING LAYER AND STACK SPECIFICATION Organization: CEN
Date: 2016-11-01
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC.
WILEY - THE INTERNET OF THINGS: K - THE INTERNET OF THINGS: KEY APPLICATIONS AND PROTOCOLS - 2ND EDITION Organization: WILEY
Date: 2012-02-01
Description: An all-in-one reference to the major Home Area Networking, Building Automation and AMI protocols, including 802.15.4 over radio or PLC, 6LowPAN/RPL, ZigBee 1.0 and Smart Energy 2.0, Zwave, LON, BACNet, KNX, ModBus, mBus, C.12 and DLMS/COSEM, and the new ETSI M2M system level standard.
CEN - EN 16836-3 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 3: ENERGY PROFILE SPECIFICATION DEDICATED APPLICATION LAYER Organization: CEN
Date: 2016-11-01
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC. The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294.
DS/EN 16836-3 - COMMUNICATION SYSTEMS FOR METERS – WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE – PART 3: ENERGY PROFILE SPECIFICATION DEDICATED APPLICATION LAYER Organization: DS
Date: 2016-11-22
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC. The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294.
NBN - EN 16836-3 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 3: ENERGY PROFILE SPECIFICATION DEDICATED APPLICATION LAYER Organization: NBN
Date: 2016-12-21
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC.The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294.
NBN - EN 16836-3 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 3: ENERGY PROFILE SPECIFICATION DEDICATED APPLICATION LAYER Organization: NBN
Date: 2016-12-21
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC.The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294.
NBN - EN 16836-3 - SYSTÈMES DE COMMUNICATION DES COMPTEURS - RÉSEAU MAILLÉ SANS FIL POUR L’ÉCHANGE DE DONNÉES DE COMPTEURS - PARTIE 3 : SPÉCIFICATIONS DE LA COUCHE APPLICATION SPÉCIALE Organization: NBN
Date: 2016-12-21
Description: This referencing is in compliance with the Bridge Consortium and additionally the Memorandum of Understanding between the ZigBee Alliance and CEN/CENELEC.The EN 16836 series represents a feature subset of a larger standard and as such not all of the features specified in the referenced documents are specified in this standard, due to some features being outside the scope of CEN/TC 294.
WILEY - TELECOMMUNICATIONS AND DA - TELECOMMUNICATIONS AND DATA COMMUNICATIONS HANDBOOK 2ND EDITION COMPLETE DOCUMENT Organization: WILEY
Date: 2007-01-01
Description: Recent developments covered include: 802.16 and WiMAX Passive Optical Network (PON) 802.11g/n Multiple Input Multiple Output (MIMO) Broadband over Power Line (BPL) Instant Messaging ZigBee In addition, Telecommunications and Data Communications Handbook expands on topics of increasing interest, including: Fiber Optics Storage Area Networks (SANs) Digital Subscriber Line (DSL) CATV Networks Wireless, including Bluetooth Cellular, including 2.5G and 3G, photos, video, and ring tones and ring-back tones Voice over Internet Protocol (VoIP), including IP PBX and IP Centrex Session Initiation Protocol (SIP) vs.
ISO/IEC FDIS 29341-30-2 - INFORMATION TECHNOLOGY - UPNP DEVICE ARCHITECTURE - PART 30-2: IOT MANAGEMENT AND CONTROL DEVICE CONTROL PROTOCOL - IOT MANAGEMENT AND CONTROL DEVICE Organization: ISO
Date: 2016-06-24
Description: Sensors/Actuators may be connected using a variety of transport protocols including Bluetooth, ZigBee and IEEE 11073. The device defined herein provides the following capabilities: 1.
DS/EN 16836-1 - COMMUNICATION SYSTEMS FOR METERS – WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE – PART 1: INTRODUCTION AND STANDARDIZATION FRAMEWORK Organization: DS
Date: 2016-11-22
Description: This European Standard specifies how to interpret prEN 16836-2:2015 and prEN 16836-3:2015 which give a list of references to the ZigBee documents. This series is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs.
NBN - EN 16836-1 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 1: INTRODUCTION AND STANDARDIZATION FRAMEWORK Organization: NBN
Date: 2016-12-21
Description: This European Standard specifies how to interpret prEN 16836-2:2015 and prEN 16836-3:2015 which give a list of references to the ZigBee documents. This series is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs.
NBN - EN 16836-1 - SYSTÈMES DE COMMUNICATION DES COMPTEURS - RÉSEAU MAILLÉ SANS FIL POUR L’ÉCHANGE DE DONNÉES DE COMPTEURS - PARTIE 1 : INTRODUCTION ET CADRE NORMATIF Organization: NBN
Date: 2016-12-21
Description: This European Standard specifies how to interpret prEN 16836-2:2015 and prEN 16836-3:2015 which give a list of references to the ZigBee documents. This series is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs.
NBN - EN 16836-1 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 1: INTRODUCTION AND STANDARDIZATION FRAMEWORK Organization: NBN
Date: 2016-12-21
Description: This European Standard specifies how to interpret prEN 16836-2:2015 and prEN 16836-3:2015 which give a list of references to the ZigBee documents. This series is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs.
PACKT - BUILDING WIRELESS SENSOR - BUILDING WIRELESS SENSOR NETWORKS USING ARDUINO Organization: PACKT
Date: 2015-10-19
Description: What You Will Learn • Interact with XBee boards using the XCTU program on Windows, OS X, or Linux • Make your Arduino boards communicate wirelessly, using XBee modules in the advanced API mode • Centrally collect and store measured sensor data, in the cloud or your own database • Connect the coordinator Arduino to the Internet and send data to web services • Control your environment automatically, based on sensor input from your network • Interact with off-the-shelf ZigBee Home Automation devices • Make your devices battery-powered and let them sleep to get months or even years of battery life In Detail Arduino has been established as the de facto standard microcontroller programming platform, being used for one-off do-it-yourself projects as well as prototypes for actual products.
WILEY - SMART GRID STANDARDS: SPE - SMART GRID STANDARDS: SPECIFICATIONS, REQUIREMENTS, AND TECHNOLOGIES Organization: WILEY
Date: 2015-04-01
Description: The authors highlight the most advanced works and efforts now under way to realize an integrated and interoperable smart grid, such as the “NIST Framework and Roadmap for Smart Grid Interoperability Standards Release 2.0”, the” IEC Smart Grid Standardization Roadmap”, the ISO/IEC’s “Smart Grid Standards for Residential Customers”, the ZigBee/HomePlug’s “Smart Energy Profile Specification 2.0”, IEEE’s P2030 “Draft Guide for Smart Grid Interoperability of Energy Technology and Information Technology Operation with the Electric Power System (EPS), and End-Use Applications and Loads”, and the latest joint research project results between the world’s two largest economies, US and China.
WILEY - WIRELESS SENSOR NETWORKS: - WIRELESS SENSOR NETWORKS: TECHNOLOGY PROTOCOLS AND APPLICATIONS Organization: WILEY
Date: 2007-01-01
Description: It shares the latest advances in science and engineering paving the way towards a large plethora of new applications in such areas as infrastructure protection and security, healthcare, energy, food safety, RFID, ZigBee, and processing. Unlike other books on wireless sensor networks that focus on limited topics in the field, this book is a broad introduction that covers all the major technology, standards, and application topics.
CEN - EN 16836-1 - COMMUNICATION SYSTEMS FOR METERS - WIRELESS MESH NETWORKING FOR METER DATA EXCHANGE - PART 1: INTRODUCTION AND STANDARDIZATION FRAMEWORK Organization: CEN
Date: 2016-11-01
Description: This European Standard also specifies how to interpret Parts 2 and 3 of EN 16836 which give a list of references to the ZigBee documents. This standard is applicable to communications systems that involve messages and networking between a meter or multiple meters and other devices in a mesh network, such as in home displays (IHDs) and communications hubs.

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