WWW Internet
Reliaabl Reli ble e an and d ef effi fici cien entt ra radi dio o co conn nnec ecti tivi vity ty fo forr th the e In Inte tern rnet et of Th Thin ings gs GSM GS M and and LT LTE E net netwo work rkss wi willll pro provi vide de fo forr ef effi fici cien entt Io IoT T co conn nnec ecti tivi vity ty.. EC-GSM
Uses Us es Ca Case sess
Extended Exten ded Coverage Coverage GSM
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•
NB-IoT
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Narrow Band Internet of Things
Metering Tracking Advanc Adv anced ed sen sensors sors
Commercialization in liline ne wi with th • •
Standardization Ecosystem
eMTC eMT C (LT (LTE-M E-M)) enhanced enha nced Machi Machine ne Type Communica Communication tion
Leverage
the e ma mass ss ma mark rket et the e Io IoT T Experience Win th Evolve th
your ne your netw twor orkk an and d spectru spe ctrum m asse assets ts
IoT Io T e2 e2e e
with th with the e mo most st ef effi fici cien entt 3GPP technologies
with LT with LTEE-Adv Advanc anced ed Pro and 5G
IoT low power wide area access technology landscape Short-range
Range* MCL**
SIGFOX
LoRa
eMTC
NB-IoT
EC-GSM-IoT
Rel. 13
Rel. 13
Rel. 13
10cm to 200m
<12km 160 dB
<15km 155 dB
<100km 156 dB
<35km 164 dB
<35km 164 dB
Spectrum
Unlicensed
Unlicensed
Unlicensed < 1GHz
Licensed LTE bands in-band
Licensed LTE in-band guard-band stand-alone
Licensed GSM bands
Bandwidth
2.4 GHz
900MHz 100Hz
900MHz <500kHz
1.08 MHz (1.4 MHz carrier bw)
180 kHz (200 kHz carrier bw)
200 kHz
Max Data rate***
<100s Mbps
<100 bps
<50 kbps (DL/UL)
<1 Mbps (DL/UL)
<170 kbps (DL) <250 kbps (UL)
<140 kbps (DL/UL)
Nokia ONT * Depending on spectrum being deployed
Nokia partner ** Maximum Coupling Loss
Nokia RAN
*** Instantaneous peak rate
Narrowband IoT (NB-IoT) is designed for support of low throughput, low complexity and low energy consumption Machine Type Communications. Inband operation with legacy LTE system is possible. NB-IoT 200kHz NB-IoT specification has already been finalized in Release 13 (date: June/july 2017.)
NB-IoT
GSM channels 200kHz
Range
<35km
Battery life
>10 years
Frequency bands
LTE bands
Bandwidth
180 Khz / 200kHz or shared
Modulation
DL: OFDMA with 15 kHz subcarrier spacing UL: SC-FDMA Single tone transmissions – 15 kHz or 3,75 KHz, Multi-tone SC-FDMA with 15 kHz subcarrier spacing
Max throughput
~67 kbps (UL/DL)
Link budget
164 dB
Capacity
+50k IoT devices per sector
NB-IoT NB-IoT
NB-IoT Options and Roadmap for Commercial Release
T O I B N
T O I B N
T O I B N
LTE carrier
GSM carriers
In-band
Standalone
Guard band
Release:FL17A Available: August 2017
Release:FL17ASP Available: December 2017
Planned for future Release
Rel-13 NB-IoT is defined for the foll owing E-UTRA operating bands -EUTRA bands 1, 2, 3, 5, 8, 12, 13, 17, 18, 19, 20, 26, 28 and 66 -Note: New bands can be defined for NB-IoT on need basis as usual in 3GPP RAN4
LTE carrier
NB-IoT In-Band Trial Roadmap
T O I B N
T O I B N
T O I B N
LTE carrier
LTE carrier
LTE carrier
Pre-Standard LAB Trial
Post-Standard LAB Trial
Field Trial
Release:FL16A Available: September 2016
Release:FL17 Available: May 2017
Release:FL17A Available: August 2017
LTE eNB configuration Dedicated SW for the trial)
•
•
2x2 MIMO
Experimental IoT device •
•
•
DL/UL Configuration •
•
T o I B N
Power Saving Mode (PSM) •
LTE carrier in-band deployment
SW Update on t op o f existing FDD1800 eNodeB Existing Site Configuration in LAB
NB-IoT@200 KHz
Site confi guratio n with NB-IoT
In-Band 1800 MHz
• •
BB: 1xFSMF BB RF: 1x RFM FXEA
ANT Ports
HW Requirement No requirement •
LTE config: 1 10 MHz ; 8W •
1800 MHz ANT Ports
SW Requirement SW upgrade to FL16A
•
RF1800
LTE BB
•
NB-IoT config: 1 200 KHz
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RF1800
LTE confi g: 1 10 MHz
LTE BB
Nokia NB-IoT Trial IoT Test Box IoT Test Box* is a model of a real IoT device. It has an XMM7115 modem inside, a sensor, Raspberry PI for control and a battery. After initial provisioning it is able to attach to the network without any external operation, register with the application servers and transmit sensor data. (The USB cable on the picture is there just to help with the scale. It is not needed for the IoT-TestBox operation). *Please Refer to backup slides for more pictures of IoT Device
IoT Test Box
Shipset Specification •
•
The Intel XMM 7115 modem is designed to support the industry’s first wave of devices and applications based on Narrowband IOT (NB-IOT). NB-IOT is a new, low power wide area (LPWA) technology being defined for 3GPP Release 13 that leverages existing LTE mobile networks to more efficiently connect to hard-to-reach devices that only require infrequent reporting of small amounts of data. Designed for integration with sensors, smart grid meters and other low-power endpoints, Intel XMM 7115 supports peak data rates below 200 Kbps downlink for devices requiring extended battery life. It is ideal for connected market segments such as energy, agriculture and transportation.
http://www.intel.com/content/www/us/en/mobile/modem-solutions.html
Test Case: •
•
•
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To obtain room temperature and humidity and compare the IoT box output in App Server with current actual room temp measured in STC test lab thermometer. IP address will be assigned to IoT box from EPC network, once the session has been established and an IP number assigned to the device, attempt to ping the IP address of IoT-TestBox. After verifying the IP connectivity with the IoT-TestBox, verify that the device has successfully registered with the Leshan LWM2M application server running on the IoTApp Server. Verify room temp in Leshan server and the NB-IoT connected thermometer GUI.
Trial Steps
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Commission IoT eNB and connect RF cables to IoT box
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Configure Nokia’s DHCP server and connect to IoT box
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Configure Leshan Application server and insure reachability to IoT box
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Conduct EPC routing (with help of core team) and confirm IoT box is attached to EPC and registered in Leshan Application server
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Check temperature and humidity reading in Leshan Application server
The trial was performed successfully
The IoT devise was able to connect to the network and obtain IP address
Leshan Application server configuration was successful and reachability to IoT device was established
Temperature and humidity readings from the device was successfully read by the Leshan Application server through LTE radio connection
The PoC was successfully demonstrated at STC Lab.