Selasa, 30 Januari 2018

Video Series Low Power Wide Area Networks, NB-IoT and the Internet of Things, IoT

Low Power Wide Area Networks, NB-IoT and the Internet of Things (video series)
Title Description Duration (minutes) Download
Video 1:
IoT and LPWAN
 
We start with an introduction to the IoT market and LPWAN (low-power wide-area networks) comparison. The IoT device market is about connecting billions of devices to the Internet to share information in order to get benefits such as convenience, efficiency, reducing energy usage, or reducing costs. Ian talks about some of the different types of IoT wireless radios, such as WiFi, NFC, EMV, EMVCo, Bluetooth, ZigBee, Z-Wave, Wi-SUN, Wireless M-BUS, SIGFOX, LoRa technology, Telensa, OnRamp, INGENU, LTE, Cat M, and others, and why LPWAN technologies provide benefits to the IoT connectivity market. 17:42 MP4
Video 2:
3GPP Cat M & NB-IoT
 
In the next video, we look more closely at 3GPP formats, Cat M and narrowband (NB) IoT. After discussing the evolution of the formats, Ian shows how Cat M and NB-IoT systems can be placed in-band with LTE, placed into the guard band or be used in re-farmed GSM spectrum. Finally, we do a LPWAN comparison of the licensed and unlicensed spectrum. 20:10 MP4
Video 3:
Optimization
 
IoT devices can be used in critical applications where reliability is crucial. Battery life is affected by power cycling, IoT connectivity to the network and firmware defects, and if the device is in a remote location the cost to reboot the device or replace the battery can be prohibitive. Ian discusses some of the IoT test challenges and test setups that can be used to address them. 16:16 MP4

Minggu, 14 Januari 2018

Contiki Open Source OS for the Internet of Things , IOT

Contiki is an open source operating system for the Internet of Things.
Contiki connects tiny low-cost, low-power microcontrollers to the Internet

Jumat, 12 Januari 2018

Video Tutorial Microwave Engineering Transmission planning with Pathloss Full Version

Microwave Engineering links planning with Pathloss
The Pathloss program is a comprehensive path design tool for radio links operating in the frequency range from 30 MHz to 100 GHz.
The program is organized into eight path design modules, an area signal coverage module and a network module which integrates the radio paths.
Coverage module and a network module which integrates the radio paths and area coverage analysis. Switching between modules is accomplished by selecting the module from the menu bar.

NSN UCE-Telkomsel PLO Short Course

NSN UCE,Telkomsel ,PLO Short Course
PLO Business Process
Basic Pre Launched Optimization,
Idle Channel,
Dedicated Channel,
Power Control,
Handover,

Selasa, 09 Januari 2018

ZTE Future Oriented UMTS Solution


ZTE Global Market and UMTS Overview,
UMTS Technology and Market Overview,
Future 3G, Focus on TCO and Profit Potential,
Challenges and Strategies in UMTS Network Deployment ,
ZTE UMTS ,Global Application Update and Case Study,

Jumat, 05 Januari 2018

Global 5G Spectrum,Qualcomm Incorporated

Global 5G  Spectrum,Qualcomm Incorporated
What can we do with 5G NR Spectrum Sharing that isn’t possible today?
Qualcomm Technologies, Inc.
December 13th, 2017

Global 5G  Spectrum

Dean Brenner, SVP, Spectrum Strategy & Tech Policy
Qualcomm Incorporated
https://www.dropbox.com/s/7j8li03v90sdvgv/new-3gpp-effort-on-nr-in-unlicensed-spectrum-expands-5g-to-new-areas%2C%20Vino.pdf?dl=0

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