DESC:FIELD OF INVENTION
The present invention relates to A SYSTEM AND METHOD FOR FAST, SECURED AND INCESSANT DISTRIBUTION OF MULTIMEDIA CONTENT TO SUBSCRIBER referred as “MBoost accelerator system’. The system offers fast, economical, copyrighted, real time fresh content through single system and thereby avoids usage of multiple devices for accessing various multimedia contents. MBoost accelerator system also serves as platform to display customized advertisement concurrently and economically. The MBoost accelerator system offers speedy, secured, scalable, multimedia content delivery to subscribers in managed and unmanaged networks, with the ability to reach any screen, any time and at any location. The present invention also provides a method for fast, secured and incessant distribution of multimedia content to subscriber using API based operating system of Digital Rights Management compatible display device.

TECHNICAL BACKGROUND
For more than a decade, Content Delivery Networks (CDNs) have played a crucial role in the effective operation of the Internet, helping to mitigate problems such as network congestion, packet loss, jitter and delay. Rising numbers of Internet users and increased bandwidth usage have both played a major part in transforming the market for CDN service provision. Just as the CDN landscape has given way to new types of provider – including a diverse range of “pure play” providers and a growing number of network operator CDNs – so too has the ongoing debate about the potential uses of CDNs shifted into new territories, including the delivery of Over-The-Top (OTT) content, mobile video and cloud services.
Shortcomings of cable operators had led to the creation of immense opportunities for Direct-to-Home system (DTH) that served as a better alternative to high-end cable networks. DTH system provides uninterrupted signal reception with reduced amount of service breakdowns. DTH system offers high picture fineness and sound quality.
US005734853A discloses about a set top terminal, it relates to the television entertainment system, which provides television programming to consumer homes. In particular, the invention relates to a set top terminal for use with a program delivery system with menu selection of programs. However, the terminal disclosed therein does not facilitate subscribers to view on demand multimedia content mapping to his convenient schedule and frequency of viewing.
US20020144279A1 discloses about the distribution and transmission of television programming for viewing on video display devices, such as televisions, video monitors, and the like, located in homes, businesses, or other locations. The main limitation is the user is not able to watch events not covered by cable or DTH operators and end up using its own internet data. Such drawbacks are taken care of in the present invention.
Now days many public places viz. airport, railway station, convention centers, beverage junctions, main city avenue, business district, city centers offer free Wi-Fi access to masses. Such places are frequently visited by sizable number of quasi-static mobile subscribers. Technically, quasi-static content consumer at aforesaid locations utilizes free wi-fi for specific purpose. However, due to surplus time and resources at their disposal, majority of them access internet based content for self-entertainment, knowledge, education etc.
The main issues confronting OTT players are not necessarily funding content, but rather marketing it and getting it in front of people. Although CDNs play a crucial role in the process of delivering content to end-user, the larger OTT players use a variety of CDN models. While companies such as Google, Youku, Tudou and, more recently, Netflix, use their own CDNs – either wholly or in conjunction with “pure play” providers – other major players such as Hulu, Facebook and Amazon continue to partner with one or more of the leading Internet CDNs – including Akamai, Limelight Networks and Level 3. However, technically traditional mode of fetching the internet based free multimedia content de-energizes subscriber’s device, consumes his precious time and sporadic download distract his interest. Sometime, depending upon content updating policy of OTT, requested version of demanded content may be obsolete or entire content may be non-existent due to geographical regions based copyright protection. Also access to quality based, feature rich specifically Ultra high 4K at 60 fps, high definition, virtual reality content is a major challenge.
However the know systems have the following drawbacks:
(a) Individually they offer limited quantum of content which is governed with pre-fixed schedule;
(b) It does not facilitate subscribers to view on demand multimedia content mapping to his convenient schedule and frequency of viewing;
(c) Further, these content service providers charge heavy premium to sponsors to allot time slot which fetched maximum viewer mapping to popular content. Sponsors recover them from sale of services to subscriber;
(d) Also millions of subscribers are forced to pay more to view such channels offering special content;
(e) Over and above these limitations, unlike internet YOU tube channel or web content viewers, TV viewers are unable to watch events not covered by cable or DTH operators and end up paying separately for the same to watch them using their internet data.
(f) Even freelance individual content creators do not have any means to reach the millions of TV viewers.

Till date OTT may be accessed by the end user but that results in the consumption of the user’s internet data and sometime the streaming is slow and the user loses its interest. Therefore there is a need for a technology which addresses the aforesaid drawbacks and allows the end user to access the contents available not only on television but also on their mobile or computer at any place and also when the user is in movement.
The present invention provides a system that addresses the aforesaid drawbacks. It is a system with secured, scalable, real time content trading platform according to its real time consumption across national subscribers.

ABBREVIATIONS
OTT- Over The Top
DTH- Direct-to-Home
CDN- Content Delivery Network
API- Application Program Interface
GUI – Graphical User Interface
DRM - Digital Rights Management
IDU - Interface Data Unit
V-Sat - Very Small Aperture Terminal
VPN - Virtual Private Network

BRIEF DESCRIPTION OF DRAWINGS
Figure 1 illustrates flow diagram of MBoost accelerator according to one embodiment of the invention

EMBODIMENTS
In an embodiment the invention provides a MBoost accelerator system comprising: a remote MBoost cloud server configured to store plurality of multimedia uploaded by various subscribers and to communicate to remotely located interface;
MBoost broadcasting server housed in data center with internet connectivity configured to communicate with MBoost cloud server through broadcasting server by VPN/ P2P. The contents are receivable through a KU Band antennae; The MBoost accelerator box enabled with v-sat, v-sat modem, which is accessed by a plurality of remotely located MBoost multimedia viewing applications executing on digital devices; a MBoost multimedia viewing application, when executed on a digital device:
to establish a connection with MBoost accelerator box through a local area wireless communications interface
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given media or a to-be-requested portion of the multimedia;
wherein MBoost box executing the remotely located instance of the multimedia viewing application is operable using the internet available at the place where it is located.
In another embodiment the MBoost server is configured to store the files uploaded by the various content uploader for access by the multimedia subscriber.

In yet another embodiment wherein the file stored in the said MBoost server has a specific title.
In still another embodiment, the said MBoost accelerator box is connected to the server through v-sat and to the digital device through MBoost multimedia viewing application.
In an embodiment the multimedia includes visual content, audio content or audiovisual content including respective video stream of a plurality of video streams or respective audio stream of a plurality of audio streams or both.
In yet another embodiment the said MBoost accelerator box is configured to send the plurality of audio or video or audiovisual streams to one or more MBoost multimedia viewing applications to be displayed simultaneously.
In still another embodiment the said MBoost accelerator box is further configured to send the extracted or on demand multimedia to the external device via a communication network or v-sat and wherein the external device is a television or any other display screen.
In an embodiment, the said MBoost accelerator box converts video signals into digital data compatible with end user system.
In yet another embodiment, the MBoost accelerator box interfaces with public Wi-fi network, at public zones which are frequently visited by sizable number of quasi-static mobile subscribers.
In still another embodiment, the said digital device on which multimedia viewing application is located is selected from a personal computer, laptop, smartphone, smart television, a tablet, a smartwatch, wearable computing devices. In yet another embodiment, the said multimedia viewing application further presents a multiple window display on the display of the given digital device, wherein video corresponding to a selected first multimedia source is presented in a first window of the multiple window display and multimedia corresponding to a selected another multimedia source is presented in a second window of the multiple window display.
In an embodiment, the present invention provides a method for fast, secured and incessant distribution of multimedia content comprising:
receiving from a multimedia content provider, a plurality of multimedia content streams;
communicating the multimedia received from the content provider from the MBoost cloud server to remotely located interface
In another embodiment, the method further comprises:
establishing a connection with MBoost accelerator box through a local area wireless communications interface using MBoost multimedia viewing application
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given multimedia or a to-be-requested portion of the multimedia.
In yet another embodiment, the method further comprises
the step of receiving selected multimedia content out of the plurality of media content when the plurality of multimedia is simultaneously displayed.
In yet another embodiment, the method further comprises providing metadata information selected from scores of various sports, text, title of the program, synopsis and cast.
In another embodiment, the method further comprises determining whether a content provider has permission to upload the multimedia content or subscriber has permission to access the selected multimedia content;
if the content provider does not have the permission to upload the multimedia content, offering a content uploading subscription and terms and conditions to the content provider to allow access to MBoost server to upload the multimedia;
if the user does not have permission to access the selected multimedia, offering a content subscription to the user to allow access to the selected multimedia.
In another embodiment, the method wherein the offering of a content subscription to the user includes one of the following:
offering a pay-per-view content subscription to the user to allow access to only the selected multimedia, and
offering a general content subscription to the user to allow access to at least the selected multimedia.

DESCRIPTION OF INVENTION
The present invention provides a system comprising a) MBoost server; b) MBoost broadcasting server; c) MBoost broadcasting server is placed with MBoost server and d) the MBoost accelerator box is placed with the subscriber.
The MBoost accelerator system comprises-
a remote MBoost cloud server configured to store plurality of multimedia uploaded by various subscribers and to communicate to remotely located interface;
MBoost broadcasting server housed in data center with internet connectivity configured to communicate with MBoost cloud server through broadcasting server by VPN/ P2P.;
MBoost accelerator box enabled with v-sat, v-sat modem and a plurality of remotely located MBoost multimedia viewing applications executing on digital devices;
MBoost multimedia viewing application, when executed on a digital device:
to establish a connection with MBoost accelerator box through a local area wireless communications interface
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given multimedia or a to-be-requested portion of the multimedia;
wherein MBoost box executing the remotely located instance of the multimedia viewing application is operable using the internet available at the place where it is located.
The MBoost server is configured to store the files which have been uploaded by the various subscriber and can be downloaded or are available for view by the same subscriber or other subscribers who have access to the MBoost accelerator. Each file stored in the servers has a specific title which helps the user to identify the same through the MBoost accelerator which is connected to the server and wifi or internet. This enables the utilization of internet at only one end and the user or subscriber is able to save cost by not utilizing its internet package.
The MBoost server comprises computer-readable memory coupled to the processor. The memory stores computer-executable instructions that, when executed, cause the processor to receive, from an subscriber and/or provider, plurality of multimedia,
The multimedia includes visual content, audio content or audiovisual content including respective video stream of a plurality of video streams or respective audio stream of a plurality of audio streams or both.
The MBoost accelerator box comprises of a portable box including thin form factor, mother board, memory, multi-core processor, graphic processor unit, expandable RAM, USB ports, capture card and power supply coupled with communication means e.g. Radio Frequency card. The motherboard is one of the most essential parts of MBoost accelerator box. It holds together many of the crucial components of the system, including the processor, memory and connectors for input and output devices. In addition to circuits, a motherboard contains a number of sockets and slots to connect the other components for e.g. Universal Serial Bus (USB) port, a standard cable connection interface for service provider’s system and consumer electronics devices. The MBoost accelerator box comprises graphics processing unit (GPU) modified to rapidly manipulate and alter memory to accelerate the creation of images in a frame buffer intended for output to a display device. The MBoost accelerator box has modified Random-Access Memory (RAM) for data storage which stores data and machine code currently being used, which allows the data items to be read or written in almost the same amount of time irrespective of the physical location of data inside the memory.
The MBoost accelerator box is configured to send the plurality of audio or video or audiovisual streams to one or more MBoost multimedia viewing applications to be displayed simultaneously;
The MBoost accelerator box further configured to send the extracted or on demand multimedia to the external device via a communication network or v-sat and wherein the external device is a television or any other display screen.
The MBoost accelerator box converts video signals into digital data compatible with end user system using a video capture card. MBoost accelerator box also comprises a Radio Frequency card to exchange data with a reader using radio frequency (RF) signals.
The MBoost accelerator box interfaces with public Wi-fi network, at public zones which are frequently visited by sizable number of quasi-static mobile subscribers. The MBoost accelerator box continuously communicates with the remote MBoost cloud server.

The MBoost accelerator system has sync facility with provision for storage and backup making transfer of data to local, remote and cloud storage easier than ever.
The digital device on which multimedia viewing application is located is selected from a personal computer, laptop, smartphone, smart television, a tablet, a smartwatch, an iPod, an iPad, and Google Glass.
The multimedia viewing application further presents a multiple window display on the display of the given digital device, wherein video corresponding to a selected first multimedia source is presented in a first window of the multiple window display and multimedia corresponding to a selected another multimedia source is presented in a second window of the multiple window display.
The MBoost accelerator system permits OTT player’s to access statistical pattern of multimedia content consumption by the subscriber, prepare a statistical pattern of their choice and frequency of demand for particular content etc. and accordingly manage the frequency of updating the multimedia content in their database.
The inventors have further developed data security technique to minimize or trace point of origin of piracy while managing scalability of consumption of Digital Rights Management (DRM) protected content. It facilitates only MBoost logo content to play on DRM compatible devices via the content provider’s API.
The present invention supports different languages viz. Vernacular, European and African to make it accessible globally.
The MBoost accelerator system comprises of server at service provider’s end. This server is connected to internet 24/7. The system is capable of storing the multimedia, multi-dimensional, multi-lingual contents for limited duration. The MBoost server provides a platform to multiple content creators or third party content marketers to upload their content on service provider’s URL and manages the same. Once the content is uploaded on the server, even if it encoded, it is further encoded with inventors own encoder, followed by its encryption. These essential security steps though increases the size of the content but provides high quality multimedia and security. Such encrypted content is then subjected for multiple quality audits based upon parameters comprising of metadata of said content. The certified data is sent to V-sat operators at same or different geographical location and from there it is broadcasted to multiple Local Hot Spot Service providers’ servers. Local Hot spot end are interfaced with Interface Data Unit (IDU) and Very Small Aperture Terminal (V-Sat) to receive the said content from V-Sat operators. The entire certified content is pushed to each Local hot spot server for further onward flow of this content is pushed to commercially valid subscriber who has demanded to view the desired content as per his schedule. On viewers end the certified content received from Local Hot Spot Service Provider End is decoded and decrypted using the MBoost multimedia viewing application and consumed for viewing as per their choice. The GUI of the MBoost multimedia viewing application enables the subscriber to place a request to playback content of his choice at desired schedule and frequency before its expiry. Said application supports multiple vernacular and overseas language and subscriber can choose to install customized version in his native country/ mother tongue or whichever he is comfortable to operate at.
The present invention has the following features (1) content uploader (2) content consumer/ subscriber (3) Intermediate Hot spot service provider (4) Hardware boost accelerator which communicates to MBoost cloud server.
The MBoost system according to the present invention utilizes unused bandwidth to deliver value added services. The usage of internet/IP infrastructure has still a lot to evolve therefore, uploading content immediately on demand is not always possible hence, it affects service providers in providing value added services. MBoost Technology system solves the problem by using high bandwidth for forward path (in coming data) and low bandwidth internet connection for return path (outgoing data) and provides a unique platform to provide content on demand kind of services with unmatched user experience.
The present invention enables private live streaming through MBoost Acclerator System with scalable live streaming to public cloud services (including Facebook, YouTube, and platforms that support RTMP endpoints). It also provides secure storage for videos and broadcasts for later playback, turning a one-time stream into material for multiple utilizations.
The present invention also provides a method for fast, secured and incessant distribution of multimedia content to subscriber using API based operating system of Digital Rights Management compatible display device.
The present invention provides a method for fast, secured and incessant distribution of multimedia content comprising:
receiving from a multimedia content provider, a plurality of multimedia content streams;
communicating the multimedia received from the content provider from the MBoost cloud server to remotely located interface. The method further includes establishing a connection with MBoost accelerator box through a local area wireless communications interface using MBoost multimedia viewing application:
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given multimedia or a to-be-requested portion of the multimedia.
The method further comprises the step of receiving selected multimedia content out of the plurality of multimedia content when the plurality of multimedia is simultaneously displayed.
The method further comprising providing metadata information selected from scores of various sports, text, title of the program, synopsis and cast.
The method further comprising: determining whether a content provider has permission to upload the multimedia content or subscriber has permission to access the selected multimedia content; if the content provider does not have the permission to upload the multimedia content, offering a content uploading subscription and terms and conditions to the content provider to allow access to MBoost server to upload the multimedia; if the user does not have permission to access the selected multimedia, offering a content subscription to the user to allow access to the selected multimedia.
The offering of a content subscription to the user includes one of the following: offering a pay-per-view content subscription to the user to allow access to only the selected multimedia, and offering a general content subscription to the user to allow access to at least the selected multimedia.
As shown in Figure 1 the multimedia content provides upload their multimedia content via Internet to either their own or third party managed multiple number of content delivery network server’s viz. YOUTUBE, AMAZON, NETFLIX etc. which are 24/7 online in different geographical regions. However, with present invention, now they have flexibility to upload same multimedia content on MBoost acclerator system via Satellite hence, depending upon the real time geographical location of the viewer, the said content can be downloaded in comparatively shorter span from the source of centralized content depository, thereby saving time, optimal usage of data transfer speed and pre-allotted storage capacity the subscriber. The subscriber accesses said multimedia content through user API by logging in MBoost multimedia viewing application through MBoost Accelerator box. API simplifies selection, navigation through catalogue of multiple OTT’s. Subsequently, the subcriber can access, download and playback desired and permitted MBoost content from MBoost Accelerator System using MBoost multimedia viewing application at earlier cited wi-fi enabled public places by using appropriate version of API. The subscriber thus overcomes numerous hurdles associated with traditional download via heavily crowded internet multimedia data traffic. The in-situ intelligence of embedded system optimizes the content from MBoost accelerator system to play on mobile networks with erratic throughput so that OTT users do not have to compromise on their experience on the low end, and play HD quality video on the top end of bandwidth availability.
The MBoost accelerator system of the present invention fetches and updates the latest real time content, organized sequentially by date and time stamp. The system provides intermittently uninterrupted streaming experience of consuming content wherein bypasses conventional internet traffic and provides data super highway to subscriber seamlessly.
The MBoost system according to the present invention provides SDK kit to publishers wherein they can continuously upload MBoost content on Mboost cloud server.
The MBoost Server communicates said content on MBoost accelerator boxes in wider footprints and multiple remote locations.

The present invention has numerous advantages over the prior arts:
(1) Provide ultra/high definition content to viewers
(2) Safe viewing - Only copyrighted legally approved content I offered to subscriber
(3) Offers flexible schedule & frequency for viewing;
(4) Flexibility over multimedia on demand e.g. two dimension, three dimension, multi-lingual including mime language; only audio or only video or only animation or all three
(5) Open platform for individual content creators or event organizers who cannot afford and have means to capture, transmission overheads to reach television or digital multimedia display device viewers
(6) Viewability BY A QUASI STATIC VIEWER.
(7) Uninterrupted clutter free streaming in the non eclipse zone of the v-sat.
,CLAIMS:1. The MBoost accelerator system comprises-
a remote MBoost cloud server configured to store plurality of multimedia uploaded by various subscribers and to communicate to remotely located interface;
MBoost broadcasting server configured to communicate with v-sat and remote MBoost cloud server;
MBoost accelerator box enabled with v-sat, v-sat modem and a plurality of remotely located MBoost multimedia viewing applications executing on digital devices;
MBoost multimedia viewing application, when executed on a digital device:
to establish a connection with MBoost accelerator box through a local area wireless communications interface
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given multimedia or a to-be-requested portion of the multimedia;
wherein MBoost box executing the remotely located instance of the multimedia viewing application is operable using the internet available at the place where it is located.

2. The MBoost accelerator system as claimed in claim 1, wherein MBoost server is configured to store the files uploaded by the various content uploader for access by the multimedia subscriber.

3. The MBoost accelerator system as claimed in claim 1, wherein each file stored in the said server has a specific title.

4. The MBoost accelerator system as claimed in claim 1, wherein the said MBoost accelerator box is connected to the server through v-sat and to the digital device through MBoost multimedia viewing application.

5. The MBoost accelerator system as claimed in claim 1, wherein the said multimedia includes visual content, audio content or audiovisual content including respective video stream of a plurality of video streams or respective audio stream of a plurality of audio streams or both.

6. The MBoost accelerator system as claimed in claim 1, wherein the said MBoost accelerator box is configured to send the plurality of audio or video or audiovisual streams to one or more MBoost multimedia viewing applications to be displayed simultaneously;

7. The MBoost accelerator system as claimed in claim 1, wherein the said MBoost accelerator box further configured to send the extracted or on demand multimedia to the external device via a communication network or v-sat and wherein the external device is a television or any other display screen.

8. The MBoost accelerator system as claimed in claim 1, wherein the said MBoost accelerator box converts video signals into digital data compatible with end user system.

9. The MBoost accelerator system as claimed in claim 1, wherein the MBoost accelerator box interfaces with public Wi-fi network, at public zones which are frequently visited by sizable number of quasi-static mobile subscribers.

10. The MBoost accelerator system as claimed in claim 1, wherein the said digital device on which multimedia viewing application is located is selected from a personal computer, laptop, smartphone, smart television, a tablet, a smartwatch, an iPod, an iPad, and Google Glass.

11. The MBoost accelerator system as claimed in claim 1, wherein the said multimedia viewing application further presents a multiple window display on the display of the given digital device, wherein video corresponding to a selected first multimedia source is presented in a first window of the multiple window display and multimedia corresponding to a selected another multimedia source is presented in a second window of the multiple window display.

12. A method for fast, secured and incessant distribution of multimedia content comprising:
receiving from a multimedia content provider, a plurality of multimedia content streams;
communicating the multimedia received from the content provider from the MBoost cloud server to remotely located interface

13. The method as claimed in claim 12 further comprises
establishing a connection with MBoost accelerator box through a local area wireless communications interface using MBoost multimedia viewing application
to present a viewing window on a display of the digital device;
to request a plurality of sequential multimedia fragments for a given multimedia from a MBoost server that is not the network based computing system,
to present the given multimedia within the viewing window; and
to identify at least one of a requested portion of the given multimedia or a to-be-requested portion of the multimedia.

14. The method as claimed in claim 12 further comprises
the step of receiving selected media content out of the plurality of media content when the plurality of multimedia is simultaneously displayed.

15. The method as claimed in claim 12 further comprises
metadata information selected from scores of various sports, text, title of the program, synopsis and cast.

16. The method as claimed in claim 12 further comprises
determining whether a content provider has permission to upload the multimedia content or subscriber has permission to access the selected multimedia content;
if the content provider does not have the permission to upload the multimedia content, offering a content uploading subscription and terms and conditions to the content provider to allow access to MBoost server to upload the multimedia;
if the user does not have permission to access the selected multimedia, offering a content subscription to the user to allow access to the selected multimedia.

17. The method as claimed in claim 16, wherein the offering of a content subscription to the user includes one of the following:
offering a pay-per-view content subscription to the user to allow access to only the selected multimedia, and
offering a general content subscription to the user to allow access to at least the selected multimedia.