received by the International Bureau on 29 July 2015 (29.07.2015)

CLAIMS :

1. System for remote data processing and control, the system comprise: a plurality of user terminals; at least one server connected to the plurality of user terminals; at least one network; at least one cloud computing platform connecting the at least one server over the at least one network; at least one Mobility control(MC) device connected to the cloud computing platform to interact with the plurality of user terminals through at least one server, said MC device configured to perform wireless remote data acquisition, processing, transmission and control operations captures and processes driving behaviour, recording actual driving characteristics such as acceleration, braking, speeds and stops etc and stores them against a specific driver's record enabling the remote data processing and control for fleet management wherein the step of fleet management comprising : allowing the user to assign the origin and destination based on the required travel; connecting the MC device to the remote server through wireless communication network; downloading route information based on the assigned origin and destination of the journey; obtaining the GIS standard file for the assigned route; allowing real-time alteration to the rules, values, parameters, functions and features; authenticating driver for the journey; acquiring location, speed and travel data plurality of sensors across the vehicle; processing the acquired data respective to the attributes like risk rating, no entry or no-go zones, no-stop zones etc. and different speed limits assigned to each zone with each point across the route for real time . tracking; providing a simple audio-visual alerts, forewarnings well before approaching that area or zone in a moving vehicle; capturing photographic views of the roads and the cabin i.e. intelligent imagery capture; actively, in near real time transmitting the imagery and other captured and processed data & generated alerts to the server over wireless network enabling the server to perform Real Time Tracking, capturing Driving habits, providing Exception Reports, generating Trip Records and Logs, acquiring safety focused data, driver management, providing violation alerts, providing Kilometre analysis, stop analysis, providing reports such as but not limited to Consolidated Reports, Drill down reports, give complete overview of fleet, Exception Reports, Monitor over speeds, Acceleration, Breaking, etc, Unauthorized driving reports, Night Driving and Detours reports, Continuous driving reports, Trip Reports,

Performance Reports; Track transported and driver performance; Identify fatigued drivers and control accidents, Get details of every individual trip; Fuel Flow Measurement; Continuous journey data recording; Roll over detection/alerts; Lane monitoring; Alcohol sensing; monitoring Tire pressure; monitoring cargo door/tank truck; monitoring Vehicle maintenance. 2. System of claim 1 The MC device of the system further comprises: at least one user management system module configured to provide User dashboard that is specially designed to fulfil user's need to assign the mobility details. at least one database module comprise of an GIS database to maintain the GIS files and GIS data, a Preview database to store at least one preview of the route, an User database to store at least one user data, an analytics database to store the process data and generated alerts, a transaction database to store the sequence of action performed by the device; a plurality of road cameras for road imagery; a plurality of cabin cameras for driver cabin imagery; at least one road camera module configured to synchronize collect and transmit the imagery captured by plurality of road cameras connected for road imagery; at least one driver camera module configured to synchronize collect and transmit the imagery captured by plurality of cabin cameras connected for driver cabin imagery; at least one driver smart card module configured to capture identification data to authenticate the driver; at least one electrical sensor module configured to collect, synchronize and provide signal captured from sensors such as but not limited to seat belt sensor, head lamp sensor, wiper sensor, indicator lamp sensor, tail lamp sensor, temperature sensor, RPM sensor, door sensor; at least one processor and synchronizing unit configured to synchronize operations of various modules constituting the device and perform associated processing function of the device.

3. The system of claim 1 further comprises in-built data and physical security module, redundant power supply systems and data encryption / decryption module.

4. The system of claim 1 wherein the communication module is configured to directly transmit information over simple and direct electronic means rather than going through complex additional data processing, to send emails on its own, receive emails, send or receive files using a simple file transfer protocol, TCP/IP or SMS protocol as well as circuit switched data of facsimile.

5. The system of claim 1 wherein the system configured for sending to or accepting or reading data from a variety of sensors, external peripheral devices, human interface devices like microphone, speakers, keypads, temperature, pressure, flow, energy, current etc.

6. The system of claim 1 wherein the transmission of data, commands, results, alerts and alarms is possible over wireless networks like ordinary RF, GSM, GPRS, CDMA.

7. The system of claim 1 wherein the server is configured to actively receive, the imagery and other captured and processed data & generated alerts data and accurate representation of events forwarded by the MC device in near real time transmits. 8. The system of claim 1 wherein the server is configured to present to the user the near real time view of the camera capture and other imagery along with the generated alerts and the violation of the rules data.

9. The system of claim 1 wherein the server is configured to present online vehical position updates in map view format to the user for monitoring and control.

10. The system of claim 1 wherein the server is configured to generate and present to the user periodic reports based on the imagery and other captured and processed data & generated alerts data and accurate representation of events received from the MC device in near real time.

11. The system of claim 1 wherein the the plurality of road cameras are positioned and configured to capture 360° view of the road and vehicle surroundings.

12. The system of claim 1 wherein the plurality of cabin cameras are positioned and configured to capture 360° view of the driver cabin.

13. The system of claim 1 wherein the plurality of proximity sensors are positioned and configured to sense proximity along the 360° of the vehicle. 14. A method for evaluation, customization and management of programs and channel pack, the method comprising steps of:

Identifying at least one register user;

Authenticating and authorizing the at least one register user;

Obtaining the at least one register user details; Identifying and mapping at least one route;

Digitizing the identified and mapped route;

Plotting of hazards, landmarks, services and facilities, street identifiers etc. based on collected data; allowing the user to assign the origin and destination based on the required travel; connecting the MC device to the remote server through wireless communication network; downloading route information based on the assigned origin and destination of the journey; obtaining the GIS standard file for the assigned route; allowing real-time alteration to the rules, values, parameters, functions and features; authenticating driver for the journey; acquiring location, speed and travel data plurality of sensors across the vehicle; processing the acquired data respective to the attributes like risk rating, no entry or no-go zones, no-stop zones etc. and different speed limits assigned to each zone with each point across the route for real time tracking; providing a simple audio-visual alerts, forewarnings well before approaching that area or zone in a moving vehicle; capturing photographic views of the roads and the cabin i.e. intelligent imagery capture; actively, in near real time transmitting the imagery and other captured and processed data & generated alerts to the server over wireless network; analysing and interpreting at server, the received data from MC device enabling the server to perform Real Time Tracking, capturing Driving habits, providing Exception Reports, generating Trip Records and Logs, acquiring safety focused data, driver management, providing violation alerts, providing Kilometre analysis, stop analysis, providing reports such as but not limited to Consolidated Reports, Drill down reports, give complete overview of fleet, Exception Reports, Monitor over speeds, Acceleration, Breaking, etc, Unauthorized driving reports, Night Driving and Detours reports, Continuous driving reports, Trip Reports,

Performance Reports; Track transported and driver performance; Identify fatigued drivers and control accidents, Get details of every individual trip; Fuel Flow Measurement; Continuous journey data recording; Roll over detection/alerts; Lane monitoring; Alcohol sensing; monitoring Tire pressure; monitoring cargo door/tank truck; monitoring Vehicle maintenance. 15. The method of claim 14 wherein the computing and deciphering incoming sensor data, providing usable and actionable indication, alarm or fore-warning to the human user or other connected system is executed independently.

16. The method of claim 14 wherein an accurate representation of the events that were received, sent or registered by the system during the course of its operation is stored and recorded for autopsy and analysis purposes.

17. The method of claim 14 allows the in vehicle driver to receive audiovisual alerts and forewarning when entering or exiting a pre-mapped risk zone for safe driving.

18. The method of claim 14 wherein the server perform the step of actively receiving the imagery and other captured and processed data & generated alerts data and accurate representation of events forwarded by the MC device in near real time transmits.

19. The method of claim 14 wherein the server perform the step of presenting to the user the near real time view of the camera capture and other imagery along with the generated alerts and the violation of the rules data.

20. The method of claim 14 wherein the server perform the step of presenting online vehicle position updates in map view format to the user for monitoring and control.

21. The method of claim 14 wherein the server perform the step of generating and presenting to the user periodic reports based on the imagery and other captured and processed data & generated alerts data and accurate representation of events received from the MC device in near real time.