DESC:FIELD OF INVENTION
[001] The invention generally relates to a technology consulting framework to transfer data from one device to another and more specifically, the invention talks about a system and method of transacting data in real time over a SMS network (telecom-based) using standard communication protocols which does not include any internet protocol suites.

BACKGROUND OF INVENTION
[002] Cell phones or Mobile phones are taking over the world, gone are the days when mobile phones were considered as luxury thing to have. More than 85% of world’s population uses mobile phones which include smart phones as well as basic phones. As it is known, the basic purpose of using a mobile phone is for communication, be where ever the location is, the user is still connected with the world. Also, mobile phones have become a source of unlimited entertainment. The cell phones not only help you in making calls but also help you to stay entertained by allowing you to play games, listen to music, play radio and do lots of other stuff such as GPS navigation, video calling, alarms, memo recording and the like.
[003] Another important feature in cell phone is the internet, the Internet is a network of networks that consists of private, public, academic, business, and government networks of local to global scope. They are linked by a broad array of electronic, wireless, and optical networking technologies implemented via internet protocol suites. The Internet carries an extensive range of information resources and services. Coming to the mobile phones, devices that support data transmission such as 2G, 3G, 4G and Wi-Fi are capable of connecting to the internet. Everyone likes to stay connected with the provisions and the features that comes with the Internet.
[004] Main features of the mobile phone that can access internet are numerous, very important amongst is social media. A major part of modern world is addicted to social networking sites. Mobile Phones let them be active in social media all the time, other than which users can also access eCommerce, eBanking, video calling and N number of mobile applications designed for to serve various purposes and meet needs of users.
[005] Though most of the users with cell phones have Internet access, still more than 40% of the population are unable to afford Internet due to which the usage of those mobile phones are restricted to mere calling and communication. The idea of the present invention is to make all the internet restricted services such as Commerce, Banking, video calling, social media, navigation and the like free from Internet and make them available to every corner of the world irrespective of Internet connection.

OBJECT OF INVENTION
[006] The object of the invention is to provide a system and method of transferring complex data in real time over a network without any internet usage.
[007] Another object of the invention is to provide a method of using various communication protocols to transfer data from a main server to various mobile devices.
[008] Another object of the invention is to compress and encrypt complex data to adopt to a standard format and transfer using Telecom network.
[009] Yet another object of the invention is to provide mobile commerce platform without internet.
BRIEF DESCRIPTION OF FIGURES
[0010] This invention is illustrated in the accompanying drawings, throughout which, like reference letters indicate corresponding parts in the various figures. The embodiments herein will be better understood from the following description with reference to the drawings, in which:
[0011] Fig. 1 shows the communication network between the mobile phone and the main server.
[0012] Fig. 2 depicts/illustrates the details of mobile interface, in accordance with the present invention.

[0013] Fig. 3 depicts/illustrates the details in particular to response generation module, in accordance with the present invention.
[0014] Fig. 4 depicts/illustrates the details of working of main server, in accordance with the present invention.
[0015] Fig. 5 shows a flowchart depicting/illustrating a method/process to be carried to complete the communication cycle, in accordance with the present invention.
[0016] Fig. 6 depicts/illustrates a commerce platform and mobile banking platform which explains about the system described in invention by showing the device with user interface, in accordance with the present invention.

STATEMENT OF IVENTION
[0017] The invention provides a system and method for transferring complex data over a telecom-based SMS network in real time, the system comprises of atleast one user device(s) in communication with atleast one server over the telecom-based SMS technology. There is a request generation module disposed within the user device configured to generate a complex data request; the request generation module further compresses the complex data request in order to convert it to optimal size and forward to the server over a telecom network.
[0018] Further, a processor, in communication with the server, is configured to decompress the compressed complex data request, read and generate a response to received complex data request, and compress the response. The user device also contains a receiving module, a decompression module and a response data processing module to carry out respective functions. Receiving module is configured to receive a response data in reply to the complex request data from server whereas decompression module decompresses the response data, and the response data processing module is configured to process and display response data on user device.

DETAILED DESCRIPTION OF INVENTION
[0019] The embodiments herein and the various features and advantageous details thereof are explained more fully with reference to the non-limiting embodiments that are illustrated in the accompanying drawings and / or detailed in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein may be practised and to further enable those of skill in the art to practice the embodiments herein. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein.
[0020] The embodiments herein below provide a unique technology framework that is capable of transferring complex data over a telecom-based SMS technology using communication protocols without the internet. The technology holds good for all the mobile phones under GSM (Global System for Mobile communications), CDMA (Code-Division Multiple Access) and TDMA (Time-Division Multiple Access)
[0021] The above said communication protocols are defined as a set of rules for sending and receiving the data over a network, where communication protocols collectively called Protocol Data/Distribution unit (PDU). The data transaction happens between one node of the network to a main server, where the node is represented by a mobile phone. Said network comprising of data centres/gateways which will store the information, process the information and send the information to a respective location. The server will store the information, process the information and send the information to a respective node.
[0022] The above mentioned technology is similar to the technology used for “Short message service (SMS)”, commonly referred as “text messaging”. SMS is used to exchange small alphanumeric text messages to phones that use GSM (Global System for mobile), but now it is available on a wide range of network standards. Mobile numbers having a provision of sending and receiving the message data would be registered in messaging centers through which the messages delivery will happen. But the PDU format for every message data center remains the same. First few octets of the PDU will consists of registered phone number, the location or the phone number, where to send the message and length of the message data as well. The disclosed technology work on same grounds as SMS technology.
[0023] The disclosed technology may be used in many fields. One amongst them is mobile Commerce. Fast growing retail market is now estimated as larger than the E-Commerce market that commands robust investments due to the rising numbers of internet users and computer penetrations in the country. If one wants to establish the connectivity between E-commerce and the retail markets, then we can name that idea as offline marketing or shopping without internet connectivity, which may be called as Mobile Commerce.

[0024] Nowadays many tradings happen through mobile phones and computers. Many actual retailers are jumping into this mobile shopping platform to expand their trade connectivity for long distances and to reduce the time and energy spent at shops. But in many countries, people still do not use the internet in their day-to-day life, might be because of their economic conditions or poor connectivity of network at their place. Therefore, it is a clear and pressing need to build a bridge between the E-commerce and retail platforms. What better way to do this is building a Mobile Application, which can serve as offline communication media between sellers and buyers.
[0025] The embodiment here, explains about the mobile application which will work as user interface. User can launch and run the application without internet once it is installed in his/her mobile phone. As user clicks on the icon of an application installed, a request is generated from the mobile. The generated request is sent to the server via a telecom technology platform through cell phone tower or control channel.
[0026] Referring now to the drawings, where similar reference characters denote corresponding features consistently throughout the figures, there are shown preferred embodiments.
[0027] Fig. 1 depicts/illustrates details of a network connectivity system 100 that provides process flow between the mobile phone, telecom network and the main server, in accordance with the present invention. Any application, designed to work in accordance with the present technology, will be installed on mobile phone either by transferring from other devices through popular methods like Bluetooth technology or user can upload app binary file from computer to his device or he can use extra storage device.
[0028] In an alternative embodiment, the user can get the application by using Internet the user can download the app from app store or from email, only in case the user is unable to copy the app binary into his device by using non internet methodology.
[0029] Network connectivity system 100 consists of mobile device(s) 160, in which user can install the application and run it. Connecting mobile network Operator 150 antennas. Data center/gateway 140 will receive the requests from the mobile network tower 150 and transfer the data to the main server 120 and other way round. In brief, data centre 150 may act as a bridge between the main server i.e. Dynamic application server 120 and the user Mobile network operators 150.
[0030] When user clicks on the application to initiate data transaction, user interface will raise a request to the main server 120, according to which a complex data request is generated and further will be compressed, encrypted and converted in the form of a transformable data. The data is then detected and received by mobile networks 150 and then forwarded to data centre 140, where based on the request type from the mobile device(s) 160, the data centre 140 requests the main server 120.
[0031] In one embodiment, the communication between the main server 120 and the data centre 140 is carried out via internet network (HTTP), where the communication starts by sending complex data request along with the respective mobile number. The request data is processed at the main server.
[0032] Based on the type of the complex data request, the main server 120 generates response data. This generated transformable data may be sent back to the mobile device 160 end to end via data centre 140, as a response to user request.
[0033] In one embodiment, when a user try to access a particular application on his/her mobile device 160, the main server 120 may fetch the necessary data required to generate response for received request from the mobile devices 160, from a third party server 170. A third party server 170 may be defined as a server associated with particular application and updated with the information associated with that application. Further, the transaction between third party server 170 and the main server 120 is carried out via internet network.
[0034] Fig. 2 depicts/illustrates the details about mobile interface, in accordance with the present invention. This mobile interface should happen through a control module defined by two different units; processor 210 and a memory unit 220. This unit directs the operation of the processor as in directing the device working and processor 210 also guides the device how to respond to the program by storing the respective and productive information of a particular program in a memory unit 220.
[0035] A request generation module 240 will be responsible for the generation of a complex data request from the application user. As soon the user touches or clicks on the respective application a request is generated asking for a specific data. The said complex data request is usually composed of multiple data fields which are combined together.
[0036] For example, consider a request is generated in order to fetch the details of a product on an e-commerce website. The product details may include multiple fields such as but not limited to; Field 1 – product code, as each product is given with a unique number let say 1 for cement, 2 for sand, 3 for Rod and so on. At a time user can ask for quotation for 1 item only that quotation of either cement or sand or rod etc.; Field 2 – brand/name of the product; Field 3 – This may be type of the product; Field 4 – Quantity/number of products; Field 5 – Quantity unit of the product that is KG or FEET or Bag etc; Field 6 – user pin code; Field 7 – User type and the like. All these fields are now combined which may be represented as Field 1 @ Field 2 @ Field 3 @ Field 4 @ Field 5 @ Field 6 @ Field 7 and the combined data is processed further
[0037] Request generation module 230 is explained in Fig.3 with further details. The request generation module 230 generates the request once the user interfaces with the application. The generated request is a complex data which is then compressed 232 to minimize the size of the data and thus meet the standard size for the transaction using telecom-based SMS technology, compressed complex data is then encrypted 234 to avoid unauthorized access. The compression and encryption of complex data request may be achieved through any standard methods known in the art. This encrypted data will be sent out 236 to the communication module 280 from where the complex data request is sent to the data centre and eventually to the main server. Also, the request generation module 230 keeps checking for the reply which is generated at the server 238.
[0038] Further with respect to Fig.2, a receiving module 292 present in the mobile interface receives the response data from the communication module 280, which is in communication with the server 290, the response data is further decrypted in response decryption module 240 and decompressed in decompressing module 250. Once the data is decrypted and decompressed, the response data will be processed in a response data processing module 260 to adapt to the user mobile screen specification and then is displayed on the screen of mobile phone through the Display module 270.
[0039] With respect to fig.2, the communication module 280 manages and monitors the outgoing and receiving data between the server and the mobile. This communication module 280 majorly deals with the exchanging of information between two data generating modules. Response encryption module 240 will decrypt the data received by the communication module 280, this data is readable but has no provision of editing once it is received. Decrypted data will be decompressed in a decompressing module 250 so as to display the full response data.
[0040] The communication between the data centre, which is in communication with the main server 290 and the mobile interface 200 will be carried through the communication module 280. Telecom network, works on duplex mode of communication way, is implemented and applicable for data exchanging purposes.
[0041] Request generation module 230 is a main part in mobile interfacing, through which the application will be able to contact with the data centre and in turn the server 290 without the usage of an internet.
[0042] Fig. 4 depicts/illustrates the details of working of main server 400, in accordance with the present invention. Receiving module 410 will receive the complex data request via telecom-based SMS technology (in other word, data centre), from the mobile application. This encrypted and compressed data will be processed further by response decryption module 420 and decompressing module 430. The decompression and decryption of complex data request may be achieved through any standard methods known in the art. Once the complex data request is decrypted and decompressed, server will read the type of request and server will search for the solution response of the current request data. For example if the request data is in the form of Field 1 @ Field 2 @ Field 3 @ Field 4 @ Field 5 @ Field 6 @ Field 7 , the server 400 understands ‘@’ symbol in is separator between different fields. Hence in response to the complex request data, the server 400 extracts all the seven fields.
[0043] This process will be carried out by the processing unit for complex request data 440. Once the solution for the request is generated, the server 400 will process the generated response data for the particular request from the mobile interface, through response generation module 450. And the generated response will be compressed to occupy less space and encrypted to maintain the confidentiality and to avoid the further editing of the response data. This is processed in the compression and encryption module 460. Once the response data is ready to send to the mobile phone, the data will be processed and sent to the output 470 for further communication. Output module 470 will then send the response data for the particular request to the data centre, from where mobile phone through the application receives the response. And hence the user will be able to receive the response of that particular request. Since it is a real time process, time consumed to process all these will be less and efficient that user will not face any time delay in getting the response through application.
[0044] Fig. 5 shows a flowchart depicting/illustrating a method/process to be carried to complete the communication cycle, in accordance with the present invention. First at the foremost, mobile application user interface displays multiple applications on which user can click to access necessary data, here clicking on a specific application leads to request generation 510 and user request will be processed through processing engine. Compression and encryption of the complex request data is carried out and this data will be sent to the data centre from where the complex request data is sent to the main server 520.
[0045] In one embodiment, the communication between the main server and the data centre is carried out via internet network (HTTP), where the communication starts by sending the complex request data along with the respective mobile number. The complex request data is then processed at the main server.
[0046] Further, with respect to Fig.5, the response data message data will be generated at the back-end of main server and then further compression and encryption of data will be carried out and sent back to the data centre along with the user mobile number 530, from where it will be forwarded to user mobile device. Response message data will be received by the user on his/her mobile number 540 through the application.
[0047] In one embodiment, Fig. 6 depicts/illustrates a commerce platform 630 which explains about the system 600 described in the invention by showing the mobile phone 610 with user interface, in accordance with the present invention. This shows device 600 and the user interface application that could be installed in the mobile phone and used as offline shopping platform. The working process of the device 600 starts by installing the application 620 on user phone, through Bluetooth or user can upload application binary file from computer to his/her device. Basically user will have to install the application on his/her phone and/or copy the application binary file. Also, by using internet user can install the application on his/her phone, but internet is not required to run the application or to access the details on product in the application pre-defined data.
[0048] The embodiment is explaining about the system 600, consisting of the mobile phone 610, User interface application Icon 620, and enlarged screen of mobile commerce platform 630 of the phone 610 once user clicks on the user interface application icon 620, the application 620 displays mobile commerce platform 630, which consists of all the product details available on the platform 630. Said product details or the product data is fetched from the server in real time via telecom-based SMS technology. To get individual product details, the user has to click on the respective product and get the product details in real time. Further, a user can buy the product from said platform 630
[0049] Additionally, in one embodiment, with respect to Fig.6, the mentioned technology can be used in the field of mobile banking without the use of internet. Mobile banking may be adopted by the users for all sorts of cash transactions implemented via mobile banking platform 650 such as paying bills, recharging phones, buying tickets, transferring funds and the like. The user with his/her mobile phone may generate a request to initiate a cash transaction, which is received by the main server. The server acts on the request and sends one time password (OTP) to the user device over telecom-based SMS technology in real time. Received OTP is then matched with the existing user password and complete the transaction. The transaction data from server to the mobile is compressed and encrypted to suite the mobile format and communication protocol.
[0050] Further, the present technology may also be used in the field of buying and selling agricultural products, dairy products, meat, fibre, honey from bee keeping and the like. The technology helps people living in remote areas to access the updated information on standard costs of all agriculture and related products and help them to buy or sell their products on the present technology platform without using any internet connection. The data exchange is purely between main server and the mobile phone over a telecom-based SMS technology in real time.
[0051] Furthermore, the technology may be adopted to provide any suitable services, which can be achieved through complex data transmission over telecom network using suitable communication protocols. The technology holds good for any application or service unless any change in the technology is demanded.
[0052] The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the spirit and scope of the embodiments as described herein. ,CLAIMS:What is claimed,
1.A system for transferring complex data over a telecom-based SMS network in real time, said system comprising
atleast one user device(s) in communication with atleast one server over said telecom-based SMS technology;
a request generation module disposed within said user device, configured to generate a complex data request, said request generation module further compress said complex data request in order to convert said complex request data to optimal size and forward to said server over said telecom network;
a processor in communication with said sever, said processor configured to
decompress said compressed complex data request;
read and generate a response to received said complex data request; and
compress said response;
a receiving disposed within said user device, configured to receive a response data in reply to said complex request data from said server;
a decompression disposed within said user device configured to decompress said response data; and
a response data processing module disposed within said user device wherein said response data processing module configured to process and display said response data on said user device.
2.The system of claim 1 where said telecom network configured to function similar to SMS technology.
3.The system of claim 1 wherein said request generation module further configured to encrypt said complex request data.
4.The system of claim 1 wherein said user device further configured to decrypt said response data.
5.The system of claim 1 wherein said processor in communication with said server further configured to decrypt said complex request data.
6.The system of claim 1 wherein said processor in communication with said server further configured to encrypt response data.
7.The system of claim 1 wherein said user device may be any mobile phone under GSM (Global System for Mobile communications), CDMA (Code-Division Multiple Access) and TDMA (Time-Division Multiple Access).
8.The system of claim 1 may be implemented in the fields of mobile commerce, mobile banking, buying and selling agricultural products, dairy products, meat, fibre, honey from bee keeping and the like.
9.A method for transferring complex data over a telecom-based SMS technology in real time, said method comprising
generating a complex data request on a user device;
compressing said complex data request;
sending said compressed complex data request to a server over said telecom-based SMS technology ;
decompressing said compressed complex data request;
reading and generating a response data to said complex request data at said server;
compressing said response data;
receiving said response from said server;
decompressing said response data at said user device; and
displaying said response data on said user device.
10.The method of claim 9 where said telecom network configured to function similar to SMS technology.
11.The method of claim 9 wherein said user device further configured to encrypt said complex request data.
12.The method of claim 9 wherein said user device further configured to decrypt said response data.
13.The method of claim 9 wherein said server further configured to decrypt said complex request data.
14.The method of claim 9 wherein said server further configured to encrypt response data..
15.The method of claim 9 may be implemented in the fields of mobile commerce, mobile banking, buying and selling agricultural products, dairy products, meat, fibre, honey from bee keeping and the like.