The Geo-Location Technology Lanscape || Shoaib Burq & Kashif Rasul

Geo-Location Technology Landscape

Shoaib Burq and Kashif Rasul

http://spacialdb.com

Hi all, thanks for joining us. We are from a startup called SpacialDB. you can read more about it on the Startup V-Check competition website. We were short-listed in the top 10 Startups.

About us

Kashif Rasul (CTO http://spacialdb.com)

Doctorate in Maths. from FU Berlin

Background HPC and Scientific Viz.

http://hpc.nomad-labs.com

twitter: krasul

About us

Shoaib Burq (CEO http://spacialdb.com)

Geomatics and Computer sciences

Australian Government

http://geospatial.nomad-labs.com

twitter: sabman

Shoaib BurqKashif Rasul

who here remembers using the old mapquest interface? you know the old non-ajax one. Each time you wanted to go right you had to click and the map would have to reload... and do any of you remember the first time ajax became mainstream on the web... In my opinion it was when google maps was released...

This ajax interface was revolutionary and its essence has not changed from its initial functionality. This not only started the whole ajax buzz but also put location based tech. in the forefront of peoples mind and caused a huge interest in the area. It tapped into the natural explorer and geogropher in all of us. Surely you remember zoom into your home and then to your neighbours home and then their backyard and so on ... This notion of discovering information via its spatial context comes very naturally to all of us and so the evolution of the Web and IT has also progressed in this direction to create what we now know as the GeoWeb

GeoWeb

GeoWeb has meant that mass collaboration over the internet to create detailed geospatial content is now possible. OpenStreetMap is a classic example of this. Here we see the mapping of Haiti that was completed within a few days of the 2009 Earthquake. This is leading to more and more detailed and free geospatial content on the internet. The blue dots are the make shift camps that are appearing.

Tech. stack that enables this

Hardware Software Web2.0

What is enabling this technology is a mixture of innovation in hardware, software and the idea of data creation and sharing over the Web (Web 2.0)And there are quite a few market sectors that use LB technology. The most popular one would be the mobile LBS sector and I will talk about that.Having said that I should emphesise that LBS is only one category of applications that require position information. Position information is critical in many applications some have existed for decades and opportunities are opening up to innovate in some traditional sectors besides LBS too - such as transportation and logistics. My colleague will speak a bit about them in the second half of this presentation.

This talk

In the rest of this presentation I will * Define the software stack for developers that wish to take advantage of the growing LBS market* Define attributes of positioning technology* Sectors that make use of positioning technology within their value chain* For the LBS Sectors:

* define the value chain

* positioning technology in the value chain

* discuss technical attributes of the positioning technology

* maturity

* shortfalls

* expected innovation

This talk

Software stack for developers





* maturity

* shortfalls


This talk

Software stack for developers Attributes of Hardware positioning tech.





* maturity

* shortfalls


This talk

Software stack for developers Attributes of Hardware positioning tech. Define market sectors





* maturity

* shortfalls


This talk

Software stack for developers Attributes of Hardware positioning tech. Define market sectors Define LBS value chain





* maturity

* shortfalls


This talk

Software stack for developers Attributes of Hardware positioning tech. Define market sectors Define LBS value chain Discuss positioning tech. in this value chain





* maturity

* shortfalls


This talk

Software stack for developers Attributes of Hardware positioning tech. Define market sectors Define LBS value chain Discuss positioning tech. in this value chain Talk about future trends & innovations





* maturity

* shortfalls


Software: GeoStack

The software stack is what the LB technologies can be built from. and I want to give u a overview of this so that you know how to enable these innovations from a developer/technologist point of view.

Software: GeoStack Core

OS layer: prefer real time OS Low level libs: networking/routing

protocols

SDK for device

Embedded OSs:For the hardware designer, it is imperative to choose low-power hardware components and arrange them to minimize current leakage and to provide a power-efficient sleep mode. The software designer must be able to use the hardware to make the most out of the limited resources. The software must switch off unused components and put the hardware into sleep mode as often as possible. To aid the software developer, smart objects run operating systems that provide mechanisms for low-power operation.

e.g TinyOS, Embedded Linux, Real-Time OS, Android, isense, contiki

- tinyos: built on neC a subset of C

- contiki built in CLow level Libraries:

network layer software

- smart routing protocols e.g. pheromone routing protocols for packets

- working in increasing noisy network environmentsSDKs for interfacing with hardware devices (e.g. GPS, gyro, compass)

GeoStack: Base Libs

Base GeoLibraries:In order to read:GDAL/OGR is a raster/vector lib to translate geospatial data and features formats

GEOS is a lib that implements all the simple feature SQL spatial predicate funcs and operators

Proj4: is a cartographic projection lib. to convert data between the various projectionsviz. layer: Rendering: Mapnik, Mapserver

GeoStack: Base Libs

Reading geo data: GDAL




GeoStack: Base Libs

Reading geo data: GDAL Spatial queries: GEOS




GeoStack: Base Libs

Reading geo data: GDAL Spatial queries: GEOS Map projections: Proj4




GeoStack: Base Libs

Reading geo data: GDAL Spatial queries: GEOS Map projections: Proj4 Rendering: Mapnik




GeoStack: DB

SQL Databases:

Oracle Spatial, PostgreSQL+PostGIS, Spatialite, MySQL Spatial, ESRI ArcSDE, ESRI GeoDatabaseNoSQL: MongoDB, geo-couchdbHosted: spacialdb

GeoStack: DB

SQL: from Oracle, Postgis, MySQL, etc.

SQL Databases:


GeoStack: DB

SQL: from Oracle, Postgis, MySQL, etc. NoSQL DB: MongoDB and geo-couchdb

SQL Databases:


GeoStack: DB

SQL: from Oracle, Postgis, MySQL, etc. NoSQL DB: MongoDB and geo-couchdb Hosted: SpacialDB

SQL Databases:


GeoStack: Server

Web Application:

Rails: SpatialAdapter, GeoRuby (georuby.com)

Python: GeoDjango

Java: GeoServer

Node.js: geonode (geos node.js bindings)Analysis Layer:

ESRI ArcEngine, GeoAnalysis Suits:

R-Stats, GRASS, QGIS

?GRASS, QGIS? Has someone started porting to web

GeoStack: Server

Web frameworks: Georuby, GeoDjango,...

Web Application:


Python: GeoDjango

Java: GeoServer





GeoStack: Server

Web frameworks: Georuby, GeoDjango,... Desktop apps: QGIS, GRASS,...

Web Application:


Python: GeoDjango

Java: GeoServer





GeoStack: Server

Web frameworks: Georuby, GeoDjango,... Desktop apps: QGIS, GRASS,... Analysis frameworks: R-Stats, ESRI

ArcEngine

Web Application:


Python: GeoDjango

Java: GeoServer





GeoStack: Server

Web frameworks: Georuby, GeoDjango,... Desktop apps: QGIS, GRASS,... Analysis frameworks: R-Stats, ESRI

ArcEngine

Application Servers: Geoserver, Mapserver

Web Application:


Python: GeoDjango

Java: GeoServer





Attributes of Location Technologies

Now that we have an idea of the core software stack we can use it as a building block to create location based services... but first we need some definition on the attributes of this technology

Coverage

Coverage is the availability of location information where you need it. An example of poor coverage would be a large building without any maps or exit signs to show you where you are relative to the outside. An example of a situation where coverage is critical may be when a firefighter is trying to rescue a person from a building.

Accuracy

Accuracy is how closely your position matches the reality. Are you within centimetres or meters of the actual target position. Importance of this is obvious in defence and rescue.

Speed

Speed is how quickly you obtain the position of the device or target. Speed varies with the type of technology and environmental conditions. For example positioning using IEEE 802.15.4-2006 (which is the communications standard used by devices in a Wireless Sensor Network or Mesh Network) in an environment polluted with WiFi noise will take longer to find a position than in a low noise environment.

Reliability

Reliability / integrity: the percentage of time that location data is available, correct and delivered per location request. Applications that require reliability are mission-critical services such as aviation, emergency calls, routing of emergency services and military applications. Network assistance is a means to improve reliability for mobile safety services. For aviation and maritime applications, augmentation systems such as EGNOS also provide additional reliability

Power

Power consumption: is the battery life relative to the typical use case for the technology. If the battery life is short but the use is infrequent the overall consumption will be low - a good thing!

Cost

Cost: not a dollar amount but relative to the value derived by the use

http://www.flickr.com/photos/dalantech/2349477313/

Privacy

Privacy of location information especially when connected to real-time social networks comes with risks. As the LBS become main stream the users of these services will need to be better aware of the implications of making their location public. From the technology perspective the approach has been to give use control over the sharing of their location. However users arent always in the best position to judge the implications of sharing location information. For example some information that is already meant to be public is becoming more accessible thanks to the GeoWeb and improved local search. In this presentation, we will touch on the privacy issues without getting too caught up in it, as it is still a complex somewhat theoretical still.

Market Sectors

We have divided the location based market into these 5 distinct sectors, which we have chosen based on our own experience in working in them. I am sure there are more, and we would encourage the audience to think of further sectors and think of possible avenues of innovation in them.One of the most exciting and expanding sectors is that of Consumer mobile and LBS largely driven by applications running on smart phones.A huge and innovative sector is that of Telematics which shoaib will talk about.Another sector is that of outdoor activities and personal navigation devices which is seeing some growth coming from devices which are now more networked.Governments have been at the forefront of GIS and GPS technologies, as they are responsible for national geographic information infrastructures, and continue to be heavy users of geospatial information for their day to day work. Finally more and more NGOs are finding location an invaluable part of their workflow, so we have a sector for them as well.

Market Sectors

Consumer mobile and LBS


Market Sectors

Consumer mobile and LBS Telematics


Market Sectors

Consumer mobile and LBS Telematics Outdoor activities


Market Sectors

Consumer mobile and LBS Telematics Outdoor activities Government and NGOs


Ptolemus Consulting GroupPositioning Sensors on the iPhone started with just WiFi location and today we have 6 location sensors on board the iphone. This trend is reflected across other smartphones and devices. So lets have a look at some numbers...

19%

81%

Feature Phones Smartphones

Total mobile device sales 2010 by Gartner

Market Penetration

The market penetration of smartphone verses the feature phones in 2010 was still only 19%

0%

18%

36%

54%

72%

90%

2008 Q2 2008 Q3 2009 Q1 2009 Q3 2010 Q1 2010 Q3 2011 Q1 2011 Q3

US Smartphone Penetration & Projections

Feature Phone Smart Phone

The Nielsen Company

But in one year it has grown by 72%. By the end of 2011 US smartphone market share is projected to overtake the feature phones share

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This describe the entire chain of technologies that turn raw position data into useful business information, such as driving directions or task efficiency.The value chain can be divided into 4 basic groups:1. Physical location data: this part of the chain answers the most fundamental question: where is the user or the device... geo-data is created by the users, and comes in via the computer network or device like GPS. It could also be created by crowd sourced services like OSM for example or be generated by governments or private companies like google or digital globe2. Location enabling serviceswithout some other information like social graphs or temperature data for example the raw geo-spatial data is useless. One needs to add meaning to the geo data then expose it by some API services. Such services are rarely enough to provide any business value by themselves. Geocoding of street addresses and spatial queries is an example of such a service.3. Location application service. Then there are services or applications that use these low-level apis to create business logic for users to interact with: example Facebook places, foursquare, etc. The business logic uses the low-level apis together with the interactions to provide a compelling user-experience. Other examples are mapping and routing services. http://spacialdb.com our startup provides low level spatial API as location enabling service as well as location application services in the form of spatial alerts or triggers. 4. Application serviceFinally we have the end user application that use this business logic implementation towards a particular goal. For example to calculate analytics or for disaster response. Of course we also have the actual hardware manufactures that provide sdks for such applications to be ported on their devices.

Sub Sectors

Let me get into the subsectors now... starting with:

Shopping

Shopping/retail sub-sector:A lot of time is spent by people in this sector, and the industry is based on providing location services for navigation and security. The main technology being used for indoor navigation is Cell-ID, WiFi and A-GPS.Also note that airports are also following the retail mall model, even though its a secondary objective, and so the same applies to them as well.The most important use cases here are to find for specific goods in malls or friends in airports or destinations for exits or rescue in emergencies.Coverage and accuracy is the biggest issue here which is not currently addressed. Being indoors does not help either.Speed is not much of an issue and is good enough when there is good coverage.Reliability is not that much of a concern as the number of users are limited, but it will only increase in time.Power consumption will increase on the mobile device, depending on the type of tech. being used, and is an area of possible innovation. But currently with WiFi or A-GPS integration its not too bad.

Shopping

Coverage :-(


Shopping

Coverage :-( Accuracy :-(


Shopping

Coverage :-( Accuracy :-( Speed :-|


Shopping

Coverage :-( Accuracy :-( Speed :-| Reliability :-|


Shopping

Coverage :-( Accuracy :-( Speed :-| Reliability :-| Power :-)


Social networks and gaming

We Infer what we do based on who we are with. knowing our friends preference can provide advice on where to buy something, or where to go for entertainment, etc. Use cases of location based social networking are checkins services like foursquares and also games that make you go out to do something rather than sitting in front of the computer.Coverage is quite good, but privacy remains the biggest unavailable need especially its management for non technical or young users.Adding realtime notifications to social events is going to be a big area of innovation, especially in dealing with the vast amount of computation required as social graphs grow.


Coverage :-)



Coverage :-) Privacy :-(


Advertisement

This industry is expected to grow and not the least from iAd and location is clearly a way to make ads relevant and a source of further revenue.The issues here is of coverage, in that the percent of smartphone users is quite low, so the campaign is not worth running for these niche users.Accuracy, with checkins and couponing is available, but how to extract ad value from accurate position is an open area... think AR with virtual billboards as u swing around...LBMarketing is the creation of an app sponsored by a brand, which can use location better than the ads coming through disruptive banners inside apps which provide little metric for actual advertising.

Advertisement

Coverage :-(


Advertisement

Coverage :-( Accuracy :-|


Advertisement

Coverage :-( Accuracy :-| Privacy :-(


Indoor

We spend most of our times indoors from the office to the mall and then home :-( but no system or service has been given to properly address this opportunityLet me describe some potential use cases in the indoor sector:imagine knowing where your colleagues are in a big office, or which room is free for a quick meeting... at airports indoor positioning can give travels information about the location of their gates, how long it will take to get there as well as sale notifications from shopsCheck-in apps no longer need manual input of indoor location, but can do so automatically, and can inform you if your friend is on the 2nd floor etc.Finally augmented reality apps could play a big role indoors as well as outdoors.However the coverage and accuracy remain the big issues here because of being indoors.They require additional hardware, and some solutions exists using wifi, but they lack accuracy and reliability.but new buildings that have had fore-though put into nav. but the market penetration is still shallow in terms of costs as well.

Indoor

Coverage :-(


Indoor

Coverage :-( Accuracy :-(


Indoor

Coverage :-( Accuracy :-( Speed :-)


Indoor

Coverage :-( Accuracy :-( Speed :-) Reliability :-(


Indoor

Coverage :-( Accuracy :-( Speed :-) Reliability :-( Power :-(


Indoor

Coverage :-( Accuracy :-( Speed :-) Reliability :-( Power :-( Cost :-(


Summary of LBS

Apps which work indoors like inside shopping/retail centers require coverage which is not solved yet. For mobile apps like social gaming or tourism, its important to have high accuracy which is still lacking.For instant gratification apps, speed is required, e.g. coupons/check-ins, where the transactions need to be finished in seconds... but for outdoor apps like navigation, speed is not that big an issue, but increasingly will become one.We as consumers are becoming reliant on location at an ever increasing pace, so now reliability is especially for touristic applications and applications like check-ins for example is very important. Battery life is still an issue and hinders some type of LBS, particularly those running on hand-held devices. nothing worse than being lost and not being able to call someone because the battery had died, a situation someone here has been in I am sure.

Summary of LBS

Coverage: is still wanting due to the indoor nature of mobile device applications?


Summary of LBS


Accuracy is not perfect either...


Summary of LBS


Accuracy is not perfect either... Speed similarly lacking for some subsectors


Summary of LBS


Accuracy is not perfect either... Speed similarly lacking for some subsectors Reliability: not being used enough for

concern yet small % of markets


Summary of LBS


Accuracy is not perfect either... Speed similarly lacking for some subsectors Reliability: not being used enough for

concern yet small % of markets

Power: Battery life still an issue, and needs further innovations


Telematics Industry

Telematics industry includes application of ICT to the movement of goods and people using existing transportation networks such as road, air, rail or water.

Rest of this talk

We will broadly define the Value Chain in the Telematics Sector. List the Technology Stack. Then list sub-sectors and then define each sub-sector discussing its maturity, limitations and future trends and potential innovations.

Rest of this talk

Telematics value chain/proposition


Rest of this talk

Telematics value chain/proposition Technology Stack


Rest of this talk

Telematics value chain/proposition Technology Stack List Telematics sub-sectors


Rest of this talk

Telematics value chain/proposition Technology Stack List Telematics sub-sectors Maturity of sub-sector


Rest of this talk

Telematics value chain/proposition Technology Stack List Telematics sub-sectors Maturity of sub-sector Current limitations


Rest of this talk

Telematics value chain/proposition Technology Stack List Telematics sub-sectors Maturity of sub-sector Current limitations Broader trends


Rest of this talk

Telematics value chain/proposition Technology Stack List Telematics sub-sectors Maturity of sub-sector Current limitations Broader trends Potential innovations re. positioning


Technology Stack

I will go into the core stack in a bit of detail in the next slide but its the silicon, chipsets and base-data upon which the sub-sector specific services are built.OEM Original Device manufactures sell telematics devices which are equipped with location sensors.Communication infrastructure used by the telematics devices often includes the cellular phone networks - used to deliver content to and from the vehicles.Services are provided by Telematics Service Providers these can include real-time routing, reports on traffic conditions, estimated time of arrival, emergency notification.Software applications & Content: software systems with the business logic and storage, management, backup of data from telematics devices have to deal with greater quantities and complexities of inputs. Web: With the telematics devices including 3G capabilities and in-car devices able to run traditional web applications.

Technology Stack

Core


Technology Stack

Core Device/OEM


Technology Stack

Core Device/OEM Communication


Technology Stack

Core Device/OEM Communication Service provision


Technology Stack

Core Device/OEM Communication Service provision Software Application & Content


Technology Stack

Core Device/OEM Communication Service provision Software Application & Content Web


Telematics Technology Stack

Core: Let me elaborate on the core technologies a bit. The biggest change here is the addition of network connectivity and a move towards multi-functional devices. Thus navigation is just one of many functions performed by the onboard networked devices. Networking opens up possibilities for a wide range of innovations to occur.Sensors and Location enablers: Innovations to accuracy and coverage are quite common. Power is not a problem as the devices can be kept powered by the cars power. Innovation in vehicle safety systems requires changes at the core technology stack. In particular location enablers, sensors and antennas. These are to improve safety by detecting if a collision or an accident is imminent. Operating System: trends are to open up to third party developers letting them build value added services.GeoData content providers: are increasingly working in networked environments allowing services to be users centric and real-time.


Core



Core Location Enablers



Core Location Enablers Operating Systems



Core Location Enablers Operating Systems Geospatial content providers


Telematics Value Chain

The telematics service forms a value chain linking contents providers (CP), telematics service providers (TSP), mobile communication providers (MCP), manufacturers of communication terminals (M), makers of finished automobiles (Car Makers), and customers (Consumers).


Content Providers

(CP)



Content Providers

(CP)

TelematicsService

Providers(TSP)



Content Providers

(CP)

TelematicsService

Providers(TSP)

Comm.Infrastructure



Content Providers

(CP)

TelematicsService

Providers(TSP)

Comm.Infrastructure

Car Makers



Content Providers

(CP)Consumer

TelematicsService

Providers(TSP)

Comm.Infrastructure

Car Makers


Value Proposition

To consumersSafety & securityTime savings (navigation)Increased productivity (in vehicle)

Consumers

Value Proposition


Consumers- Safety & Security,

Value Proposition


Consumers- Safety & Security, - Time Savings

Value Proposition


Consumers- Safety & Security, - Time Savings- Increased Productive

Value Proposition


Consumers- Safety & Security, - Time Savings- Increased Productive- Entertainment

Value Proposition


Fleet provider- Optimisation of assets

Value Proposition

To fleet providerOptimisation of assets (asset tracking, performance monitoring)

Value Proposition

To businessAdditional data from vehicles (warranty, usage)Increased vehicle sales especially in the highly competitive car industry where consumers can buy based on additional features

Car makers

Value Proposition


Car makers- Additional data from vehicles

Value Proposition


Car makers- Additional data from vehicles- Increased vehicle sales

Value Proposition


Value Proposition

To governmentImproved infrastructure management (traffic, tolls)

Government

Value Proposition


Government- Infrastructure planning & management

Value Proposition


Government- Infrastructure planning & management- Revenue

Value Proposition


GeoData Providers

I wont be able to go into every core data provided in the telematics industry but Id like to mention one in particular which is quite interesting as it uses telematics to collect data and resell analysed data to Telematics Service Providers. Namely Floating vehicle data

Floating Vehicle Data

Services based on Floating Vehicle Data us data from mobile sensors (e.g. mobile phones) to determine traffic conditions by collecting and analysing localisation data, speed, direction of travel and time informatio. These data are the essential source for traffic information and for most intelligent transportation systems (ITS)

Data Source Analysis Distribution

Algorithms for:

- Real-Time Traffic

- Routing

- Logistics Support

- Tracking Services

SMS

Web

3G

Car companies

Mobile navigation

OEM

Re-route to avoid congestion

Positioning via:- GPS- Cellular- Sensor/E-Tags

Service providers in this sector1. Companies have access to mobile data via their own infrastructure or fleets. Data can be sourced from other providers too such as:

- Roadside e-tag readers, GPS, Cellular networks

- There are also way to ping cell phone to obtain such data. This means that every vehicle with an active mobile phone acts as a sensor for the road network. 2. Based on these data, traffic congestion can be identified, travel times can be calculated, and traffic reports can be rapidly generated and these are3. sold to network provider, car makers to integrate and differentiate their services

Telematics Sub-Sectors

In-car Infotainment Intelligent Vehicle Safety Commercial Vehicle Telematics Risk Management

Next Ill go over the sub-sectors in the Telematics industry discussing the changes that are happening and what opportunities for innovation exist.

In-Car Infotainment

In-Car Infotainment

In-Car InfotainmentDefinition: Applications that deliver and transmit digital content to drivers and passengers in the form of communications, TV, radio, internet, LBS, navigation and entertainment.

Example of the Bamboo Car

In-Car Infotainment

TV



In-Car Infotainment

TV

Radio



In-Car Infotainment

TV

Radio

Internet



In-Car Infotainment

TV

Radio

Internet

LBS



In-Car Infotainment

TV

Radio

Internet

LBS

Navigation



In-Car Infotainment

TV

Radio

Internet

LBS

Navigation

Social Network



The Connected Car

BMW connected drive Mini connected Fords Sync API for developers

BMW ConnectedDrive: BMW Assist, BMW Online, BMW Tracking, BMW TeleServices and in-vehicle internet access.These offer location-based services using GPS technology and the SIM card integrated in the car telephone. Back office servers can know the vehicle's current location and can provide relevant information along a route.Services such as weather at your destination, finding a nearby parking space, news items and stock market updates. Location based emergency services such as closes open doctor.

Expected Trend

Due to the lack of a single device specially geared towards driving where safety is paramount and use of devices is influenced by law the expected trend is the convergence towards single units which can have multiple connectivity options and gracefully handle safely concerns.

Expected Trend

Single device e.g. Android, iOS


Expected Trend

Single device e.g. Android, iOS Opening of API to developers


Expected Trend

Single device e.g. Android, iOS Opening of API to developers Network connectivity in increasing


Expected Trend

Single device e.g. Android, iOS Opening of API to developers Network connectivity in increasing Real-Time


Expected Trend ...

Expected Trend ...

3G & 4G coverage on rise

Expected Trend ...

3G & 4G coverage on rise Integration with home/back-office systems

Expected Trend ...

3G & 4G coverage on rise Integration with home/back-office systems Information products mixing UGC, social

networking

Expected Trend

Richer geospatial data 3D data Photogrammetry

Intermap

We are seeing Improvement in positioning and data bases of landmarks and street vistas. Example StreetView based on real-time video and images. Technologies such as photogrametry are creating content georeferenced to a 3D environment. Intermap Technologies recently announced 3D Roads, a dataset that provides highly accurate 3D models for every road, roads, throughout Western Europe.

Intelligent Vehicle Safety (IVS)

Intelligent vehicle safety applications are those that prevent vehicle accidents/collisions or reduce the severity of damage and injury as a result. They do this by monitoring the local and surrounding driving environment.Onboard sensors and cameras that communicate with onboard computing systems that analyses the data to determine if remedial action is required.Intelligent Vehicle Safety:

Air Bag Deployment Notification

Seat Belt Tension Notification

Emergency Assistance

Roadside AssistanceSecurity

Automatic Theft Notification

Theft Tracking

GeoFencingVehicle Status

Remote Diagnostics

Expected Trend

Automatic emergency notification Reporting accident location E112 location integration

IVS systems can detect if the driver is alert, if the vehicles wanders out of its lane for no apparent reason, if the vehicle gets too close to the vehicle in front or if a collision is imminent.* SOS and automatic ambulance and emergency notification and intgrat* reporting crash* E112 integration of position* Applications that monitor driver behaviour

Commercial Vehicle Telematics (CVT)

CVT is the technology enabling real-time fleet management systems. It works by transmitting data from vehicle back to the back-office management system and/or third party such as third party logistics

Also include Asset Management Monitoring of an asset such as cargo, vehicle, equipment or personnel from central office for the purposes of billing, maintenance, exception handling, directing, record-keeping, safety and injury prevention, legal requirements, etc.

Expected Trend

Expected to see integration of multiple sensors for greater data coverage for applications such as cargo theft monitoring. Label of "Smart containers"

improvement to increase in-transit visibility and protection of physical and intellectual assets across multi-modal transportation and supply chainssolutions that combine next-gen container construction, temp monitoring, tracking, and communication capabilities to render containers truly smartmonitor smart containers. Assess the readiness of satellite, cellular, ad-hoc mesh communications , GPS, environmental sensors and active RFIDExamples of integrated navigations systems such as Siemens VDO System allow GPS routing to take real-time traffic and environmental conditions into account when routing. This is leading to savings by reducing time spent stuck in traffic.Many efficient transport and distribution operations these days are totally dependent on reliable IT systems (for example, just-in-time stocking principles hinge on rapid and efficient communications) for communication with customers, suppliers and contractors.Electronic Data Interchange (EDI): Within IT systems, one of the fastest-growing areas is that of Electronic Data Interchange (EDI), whereby transport and distributor firms receive orders, delivery documentation and invoices direct from their customers computers into their own (compatible) systems via direct communications links, completely eliminating the delays, errors and other difficulties associated with the creating and movement of paper documents via postal and courier systems. EDI systems provide the benefits of rapid and accurate order passing and processing (at less direct cost) and with the potential for reducing stock levels.United Nations has set a standard for EDI known as EDIFACT (an acronym for **Electronic Data Interchange for Administration, Commerce and Transport**), under which there are standard procedures and messages for passing such matter as shipping instructions. This is to ensure uniformity in this method of trading.

Expected Trend

Integration of sensors (smart containers)


improvement to increase in-transit visibility and protection of physical and intellectual assets across multi-modal transportation and supply chainssolutions that combine next-gen container construction, temp monitoring, tracking, and communication capabilities to render containers truly smartmonitor smart containers. Assess the readiness of satellite, cellular, ad-hoc mesh communications , GPS, environmental sensors and active RFIDExamples of integrated navigations systems such as Siemens VDO System allow GPS routing to take real-time traffic and environmental conditions into account when routing. This is leading to savings by reducing time spent stuck in traffic.Many efficient transport and distribution operations these days are totally dependent on reliable IT systems (for example, just-in-time stocking principles hinge on rapid and efficient communications) for communication with customers, suppliers and contractors.Electronic Data Interchange (EDI): Within IT systems, one of the fastest-growing areas is that of Electronic Data Interchange (EDI), whereby transport and distributor firms receive orders, delivery documentation and invoices direct from their customers computers into their own (compatible) systems via direct communications links, completely eliminating the delays, errors and other difficulties associated with the creating and movement of paper documents via postal and courier systems. EDI systems provide the benefits of rapid and accurate order passing and processing (at less direct cost) and with the potential for reducing stock levels.United Nations has set a standard for EDI known as EDIFACT (an acronym for **Electronic Data Interchange for Administration, Commerce and Transport**), under which there are standard procedures and messages for passing such matter as shipping instructions. This is to ensure uniformity in this method of trading.

Expected Trend

Integration of sensors (smart containers) Improve in-transit visibly esp. multi-modal


improvement to inc

The Geo-Location Technology Lanscape || Shoaib Burq & Kashif Rasul

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Transcript of The Geo-Location Technology Lanscape || Shoaib Burq & Kashif Rasul