the state of nb-iot in indonesia

Internet of Things

Indonesia IoT Forum FGD - Polytron, Jan 17, 2018

NB-IoT intro & its state in Indonesia: from IoT developer’s perspective

Andri Yadi

@andri_yadi | a (at) dycode (dot) com

http://andriyadi.me | http://dycodex.com

initiator ambassador

Proudly Developer for 20 years

ASM, QBasic, Pascal, c, C++, Java, PHP, Bash, C#, Visual Basic, HTML, JavaScript, Python, Objective-C, Swift

.NET, Qt/QML, Java ME/EE/SE, Android SDK, iOS SDK, Node.js

ARM MBED, ESP8266, ESP-IDF, Arduino

x@dycode.com | http://dycodex.com

IoT & maker movement enabler

CEO

by DyCode

DycodeX’s Products & Services Focus

Asset Tracking Industrial IoTPrecision Agriculture

General Purpose: Asset Tracking

Consumer-grade Tracking

Cattle Tracking for Precision Agriculture

In-field Tracking(Fleet, Truck, Logistics)

Panic Button & Tracking

Fixed Asset Tracking

Disclosure

DycodeX is the first 3rd party developing NB-IoT solution in Indonesia

Things Connectivity People & Processes

Data Data

Internet of Things

(Sensors, actuators, MCU/MPU, network, energy, firmware) (PAN, LPWAN, Cellular) (IoT Cloud, Machine Learning, AI)

as we know…

Connectivity

Connectivity Options

ADVANTAGES

Highest throughput

DISADVANTAGES

Spectrum utilization, power requirementsWifi

Bluetooth beacons Low application throughputBluetooth

LPWA

Cellular

No power requirementLow cost

Global coverage, application profile standards

Higher reliability for mission critical applications

CAT 1 and CAT 0 LTE for low cost, and ultimately NB-IoT high range data transfer

Power requirements, coverage “black spots”

Low data throughput

Less reliability for mission critical and real-time applications

Satellite

Breadth of coverage even in areas with limited infrastructure e.g. at sea or in developing countries

Price and interference due to weather conditions

Near range

Near range

Wide range

Global

Ethernet

IoT frameworks map higher-level protocols, stable service for SLAs, mobile backhaul, security

Limited range, devices don’t work until they have a method of communication with the network

8*3&%

8*3&-&44

Global

Connectivity Option

LPWA Connectivity designed specifically for IoT

What is LPWA

Low Power, Wide Area Networks

Low data throughput = High sensitivity = Long range

(Relatively) low cost

Multiple Access = One-to-Many Architecture

Using licensed or unlicensed spectrum

Unlicensed Spectrum

EC-

-m

Licensed Spectrum

LPWA: Technologies

Cellular-IoT Licensed Spectrum for IoT

Cellular IoT (CIoT) connectivity we NOW have

Fast, efficient Up to 10 Mbps for 4G LTE

Ubiquitous coverage

Reliable & secure

Not designed for IoT in mind

High power consumption

Relatively expensive: modules, data plan

Provisioning, manageability

Advantages Considerations

Cellular IoT (CIoT) connectivity we WILL have

EC-GSM-IoT LTE-M / eMTC NB-IoT

Low data throughput

Low power

Low device & deployment cost

Extended coverage

Technologies Common Traits

LPWA recap

2015 2016 2017 2018

LTE-M375 kbps

NB-IoT20-65 kbps

EC-GSM-IoT200 kbps

GSM200 kbps

LTE CAT-110 Mbps

CAT-M1 CAT-NB1

Ultra Low Power10-20 years lifetime

Deep Coverage+18dB sensitivity

Low Complexity75% Simpler

Immediate ServiceGlobal Coverage

Durable InvestmentLong-term availability

Trusted EcosystemSolid supply

Evolution of IoT Connectivity in 3GPP/GSMA

NB-IoT a bit intro

What is NB-IoT

3GPP-standardised technology - Release 13

180 kHz RF frontend; Chipset cheaper than Cat M1, cheaper module

Can be deployed in: existing LTE bands, in guard bands, re-farmed spectrum, or standalone

Other details: Uplink: 250 kbit/s half-duplex (multi-tone), 20 kbit/s (single-tone)

Downlink: 250 kbit/s

Latency: 1.6s-10s

Device Transmit Power: 23 dBm

Coverage: 164 dB

Disclaimer

Obviously, I’m not a telco guy Won’t Go details ON NB-IoT infra

Typical Cellular IoT System

8

RF Frontend

Baseband Chipset

Power Mgmt Memory

SIM/UICC

Sensor(s) / Actuator(s)

Other I/Os / Peripherals

Host Application Processor

Battery / Power Memory

eNodeB

EPC

PDN

IMS / Gateway / VPN

Managed Services

Device Management

SIM Management

Application Enablement

Power and data management

Billing

FOTA

Application

U/I

Rules / Alerts

Reports

Billing

Source: LinkLabs

Typical Cellular IoT Architecture

NB-IoT ModuleYour “thing” Telco Infra Your Backend

RF Frontend

Baseband Chipset

Power Mgt

NB-IoT Module

Memory

Chipset Manufacturers

As hardware solution providers, we may not use it directly!

NB-IoT Modules

As system integrators, we may not use it directly

Quectel BG96

u-blox SARA-N2xx Lierda NB08-01

SIM7000A / E

AirPrime® HL78xx

NE866

*Disclosure: DycodeX is u-blox's partner. To purchase, please contact us.

Currently available for pre-order

The world’s first NB-IoT moduleSARA-N2 Series

U-BLOX SARA-N2

Cat NB1, single-tone uplink (up to 27.2 kb/s DL, 62.5 kb/s UL); 3GPP Release 13

Programming/software: Supports IPv4 and IPv6, Embedded UDP/IP Accessible over UART (2 ports), I2C, 2 GPIOs Firmware upgrade-able

Electrical: Supply: 3.6 V nominal, range 2.5 V to 4.2 V

Power consumption: Deep-sleep mode: < 3 μAActive mode: < 6 mARx mode: < 46 mA Tx mode: < 220 mA

To use NB-IOT in real-world application…

A Thing

Sensors MCU/MPU Energy

Actuator Network Interface

Firmware

as we know…

NB-IoT System on Module (SoM)

Pycom’s G01 DycodeX’s DytraX* Particle E Series*

*Choose between variants: u-blox 2G, 3G, and LTE M1/NB1 radios

Packing the core functionalities into a module, to put it into a custom board Includes: MCU, common sensors, power mgt

DytraX

Top Bottom

NB-IoT: U-BLOX SARA-N2

MCU: ESP32-PICO

GPS/GNSS: U-BLOX ZOE-M8

Battery Charger

Battery Gauge

6-Axis Accelerometer &

Gyroscope

OLED Display

Battery Connector

Nano SIMHolder

I2S Digital Microphone

40 m

m

On/Off

Magnetometer

NB-IoT DevBoard

Pycom’s FiPy DycodeX’s NB-IoT BPI NB-IoT

And some other module makers’ EVK

Ready to use electronic board for prototyping

NB-IoT Shields

SODAQ’s NB-IoT WisLTE DycodeX’s NB-IoT Shield akor-IoT

Arduino-compatible shields

What about the Programming?

NB-IoT: Software

Most NB-IoT modules:

Accessible via AT command

Support UDP/IP transport layer

Support Constrained Application Protocol (CoAP) application layer

No support for USSD, CSD, SMS, TCP/IP, HTTP, fax or voice

(Video) The moment of truth: 1st ever connecting to NB-IoT network, using AT command

Watch it on YouTube: https://youtu.be/LhK7WU6FpPI

NB-IoT in Indonesia

Disclaimer

I’m bound to an NDA :P MANY THINGS I CAN tell you in person

1 telco is doing heavy trial

1 big area is covered

~300ha, hidden in a plain sight

that I know…

NB-IoT: in Indonesia

1 use case is in heavy trial

For now, more coverage will be provided on use case basis

nb-iot frequency bands

22

Terminal Integration & Validation, Deutsche Telekom AG

The same frequency bands as in LTE

are used for NB-IoT, with a subset

defined in Release 13.

Most frequencies are in the lower

range of the existing LTE bands,

reflecting that for MTC, poor coverage

conditions is a concern.

band number uplink frequency range (mhz)

downlink frequencyrange (mhz)

1 1920 – 1980 2110 – 2170

2 1850 – 1910 1930 – 1990

3 1710 – 1785 1805 – 1880

5 824 – 849 869 – 894

8 880 – 915 925 – 960

12 699 – 716 729 – 746

13 777 – 787 746 – 756

17 704 – 716 734 – 746

18 815 – 830 860 – 875

19 830 – 845 875 – 890

20 832 – 862 791 – 821

26 814 – 849 859 – 894

28 703 – 748 758 – 803

66 1710 – 1780 2110 – 2200

NB-IoT: Frequency Bands

Currently, Indonesia uses Band 8* There’s suggestion to use Band 3, as all Indonesia telcos already support 1800MHz —> to be explored

*Not final. Official band is not agreed yet

Choose SARA-N200**Not final. Official band is not agreed yet

NB-IoT: SIM Card

Similar to other cellular connectivities, we need a SIM card to use NB-IoT

Any SIM card will do, but need to be “whitelisted” in telco-side

eSIM is still not supported yet in Indonesia. Not (really) technical reason.

NB-IoT Coverage Map

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For Drive Test, you may need one of this

*You can’t buy it easily, though. Need to be recommended by a specific vendor

NB-IoT Test Result

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NB-IoT Test Result

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#1 NB-IoT Use Case in Indonesia:

Bike Sharing

will tell you in person, NDA :)

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NB-IoT Use Case: Bike Sharing

NB-IoT Use Case: Bike Sharing

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NB-IoT is NOT a hype!It’s real, and Indonesia is taking part

Interested in adopting NB-IoT?

AndriCEO

a (at) dycode.com

Get in Touch

x@dycode.com | http://dycodex.com

IoT & maker movement enabler