METHOD, DEVICE AND SYSTEM FOR WIRELESS HIGH SPEED DATA PICK UP
BACKGROUND
The present invention is related to wireless high speed data pick up with a mobile device from a caching device in a home network.
The digitization of all kind of information and entertainment media, such as newspapers, magazines, books, photographs, films etc. has been a huge global trend during the last two decades. In the future, digitization will play an even more important role in all areas of private life (e.g. smart home, digital payment, eHealth, eGovemment, etc.) and in all industry segments (e.g. process automation, Industry 4.0. etc).
Different devices for dynamic storage of digital media (e.g. network attached storage - NAS, set-top boxes) are already available. More and more, media are not only consumed on stationary large screens such as computer monitors or TV screens, but also on portable "smart" devices, in particular on all kind of tablets and smart phones.
The opportunity of using portable devices for media consumption is that the user can use it not only at home, but also on the move, for example while commuting to and from work by train or bus. In that respect, reading an electronic newspaper on a tablet in a train is a digital substitute for reading a conventional printed newspaper.
Currently, in most cases consumption of digital content takes place online by using web browsers or dedicated applications ("apps"). This requires an online connection of the smart device with sufficient data rates in order to avoid long waiting times (e.g. for opening a digital newspaper or for scrolling from one page to another one) or to avoid stuttering video transmission. The bandwidth demand for online consumption of digital media will increase in the future because of higher content quality, e.g. higher video resolution to utilize high screen resolution of the devices.
The online connection of a smart device can be realized via different wireless media, e.g. via Wi-Fi at home (with DSL-, coax-cable- or fiber-based internet connection from the Wi-Fi access point to the Internet) or via cellular networks while on the move. However, in some scenarios, the bandwidth of the online connection might not be sufficient for a satisfying online consumption of digital media, e.g. while travelling in a train.
In such a situation, a manual pre-loading of content to the portable device (e.g. at home) might be a solution, however, this requires several manual actions of the user (e.g. browsing to a web page, authentication at the web page, selecting content, selecting location where to store content, start downloading, etc.) and it may take significant time until the pre-loading of the content is completed.
In the meantime several technologies or techniques have been developed or specified at industry organizations or standardization bodies, which can become the basic elements for more advanced and more convenient methods for content provisioning and picking-up the content with portable devices. Some of these technologies or techniques are:
■ Wi-Fi and WLAN based on IEEE802.11-2012, (lEEE-Computer-Society, "IEEE Standard for Information technology- Telecommunications and information exchange between systems- Local and metropolitan area networks - Specific requirements Part 1 1 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications", IEEE Standards Association, 2012)
■ Wi-Fi Peer-to-Peer, (Wi-Fi Alliance Technical Committee - P2P Task Group, "Wi-Fi Peer-to-Peer (P2P) Technical Specification", 2010)
■ Wi-Fi certified ac corresponding to IEEE802.1 lac, (IEEE Standard for Information technology— Telecommunications and information exchange between systems — Local and metropolitan area networks— Specific requirements—Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications —Amendment 4: Enhancements for Very High Throughput for Operation in Bands below 6 GHz); and
(Wi-Fi Alliance, https://www.wi-fi.org/discover-wi-fi/wi-fi-certified-ac)
WiGig corresponding to IEEE802.11ad, (IEEE Standard for Information technology —Telecommunications and information exchange between systems —Local and metropolitan area networks— Specific requirements-Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Amendment 3: Enhancements for Very High Throughput in the 60 GHz Band); and (Wi-Fi Alliance, https://www.wi-fi.org/discover-wi-fi/wigig-certified)
Fast initial set-up of WLAN based on IEEE802.11ai specifications (P802.11ai - IEEE Draft Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications: Amendment- Fast Initial Link Setup)
TransferJet (TranferJet, http://www.transferjet.org/tj/tj_spec.html)
Bluetooth Low Energy, Bluetooth Smart
(http://www.bluetooth.com/Pages/Bluetooth-Smart.aspx)
Near Field Communication including connection handover (NFC, Forum Connection Handover Technical Specification:
http://members.nfc-forum.org/ specs/ specjist/
New version 1.3: http://members.nfc-forum.org/specs/spec_dashboard/)
Wi-Fi Aware (Draft described in: Wi-Fi NAN Technical Specification DRAFT vO.0.24, https://www.wi-fi.org/wi-fi-nan-technical-specification-draft-v0024)
Embedded SIM card
Digital right management
Content delivery networks
Superfast boot technologies (http://www.makelinux.com/emb/fastboot/omap) elnk Displays, (http://www.eink.com)
Furthermore, first storage devices with wireless connectivity arrived on the market or prototypically developed, but they do not fulfil all required features for content pick up
with portable devices regarding speed, functionality, or usability ( urido, http://www.nurido.eu/2274-im-test-sandisk-connect-wireless-flash-drive-der-wlan-usb-stick-f uer-iphone-ipad-sowie-android-kindle-fire-geraete/); and (Engadget, http://www.engadget.com/2012/01/30/wigig-sd-card-gets-demoed-on-tablets-makes-dvds-gon e-in-60-seco/).
Therefore, based on some of the above mentioned technologies and techniques there is a need for an overall method, system and device specially adjusted to the use case of fastest content provisioning to pick up the content with portable devices.
SUMMARY
The object of the invention is to provide a method, a system and a device for wireless high speed data pick up with a portable device from a caching device. The object is achieved with the features of the independent claims. The dependent claims relate to further aspects of the invention.
According to a first aspect of the present invention there is provided a method for wireless high speed data pick up with a portable device from a caching device comprising the steps of: (a) initializing a data transfer between the portable device and the caching device; (b) activating the caching device triggered by the initialization of step (a) by using a wireless short range low power technology; (c) establishing a wireless connection, preferably having Gbit/s or Multi-Gbit/s throughput capacity, between the portable device and the caching device for data transfer; and (d) transferring the data from the caching device to the portable device using the wireless connection established in step (c), wherein the data is composed and adapted individually according to a dedicated user order by a content broker or content composition platform.
Preferably, initializing a data transfer is performed by the portable device automatically at a predetermined time and/or in response to a single operation on or with the portable device by a user.
The wireless short range low power technology for activating the caching device is preferably at least one of Near Field Communication, Bluetooth Low Energy, iBeacon, low power variants of Wi-Fi, a wireless sensor network and an active or passive RFID technology.
Preferably, activating the caching device with the wireless short range low power technology includes performing service discovery or position information tasks and more preferably further comprises the step of identifying the user.
In addition, initializing a data transfer can be performed by the portable device by approximation of the portable device to the caching device using at least one of Near Field Communication technology, Bluetooth Low Energy, iBeacon, low power variants of Wi-Fi, a wireless sensor network, and active or passive RFID technology.
Preferably, transferring the data from the caching device to the portable device includes transferring of corresponding credentials for the user to access the transferred data and preferably includes a step of deactivating the caching device after transferring the data to the portable device.
According to a second aspect of the invention there is provided a system for data pick up with a portable device from a caching device, the system being configured to perform the method according to the first aspect.
According to a third aspect of the present invention there is provided a method for data download from a content adaptation and delivery platform to a caching device, comprising the steps of: (a) activating a host device automatically at a predetermined time; (b) downloading data from the adaptation and delivery platform by means of the host device; (c) transferring the downloaded data from the host device to the caching device; and (d) storing the data on the caching device.
Preferably, after activating the host device the method further comprises the step of receiving information about at least one working timer transmitted from and scheduled by the content adaptation and delivery platform, wherein each working timer is assigned to one specific data. The method preferably further comprises steps to define at least one of the working timers taking into account at least one of the following information the capability of the user's access network, the capability and/or expected load of the content adaptation and
delivery platform, and the collectivity of the total and/or regionally ordered content. Further preferably at least one of the working timers is determined on the basis to fulfil the user requirements or rules. As a preferred example rules relate to the time the content must be available to the user.
The method preferably further comprises a step of transferring corresponding credentials for the user to access the data from the content adaptation and delivery platform by the host device and subsequently storing on the caching device.
Preferably, after storing the data on the caching device, the method further comprises a step of deactivating the host device and the caching device, wherein more preferably transferring the downloaded data from the host device to the caching device is done via a wired connection or a wireless connection.
Preferably, the method for data download from a content adaptation and delivery platform to a caching device is performed at predetermined times, preferably times with low traffic on an operator network.
According to a fourth aspect of the present invention there is provided a system for data download from a content adaptation and delivery platform to a caching device, the system being configured to perform the method according to the third aspect.
According to yet a fifth aspect of the present invention there is provided a method for data composition by a content composition platform based on a user order with a content broker or a content composition platform, comprising the steps of: (a) gathering of data according to the user's order with the content broker or the content composition platform, wherein the data is obtained from at least one content provider and/or publically available content sources; and (b) transferring the data to a content adaptation and delivery platform.
Preferably, the method further comprises the step of adapting the data by the content adaptation and delivery platform, to the capability of the user's access network and/or the capability of a user's portable device and preferably includes packing the data or parts of it into several container files, and more preferably wherein the container files are buffered at storage equipped nodes of the content adaptation and delivery platform and scheduled for download by the content adaptation and delivery platform, preferably wherein the content
adaptation and delivery platform optimizes content buffering at local operator network cache storages to provide local content, and/or wherein adapting the data preferably includes transcoding the data.
The data is preferably adapted by the content adaptation and delivery platform to the capability of the user's access network and/or the capability of a user's portable device and preferably includes packing the data or parts of it into several container files.
Furthermore, the container files are preferably be buffered at storage equipped nodes of the content adaptation and delivery platform and scheduled for download by the content adaptation and delivery platform.
Preferably, gathering of the data is based on diverse rules defined by the user directly at the content broker and/or extracted by the content adaptation and delivery platform taking into account a user technology environment and provided to the content broker or content composition platform. The user technology environment preferably comprises user devices and access technology.
In addition, the data transfer from the content broker and/or the composition platform to the content adaptation and delivery platform is preferably performed through a high bandwidth fixed network, and wherein the content adaptation and delivery platform preferably generates corresponding credentials for the later use of the data.
According to a sixth aspect of the present invention there is provided a system for data composition by a content composition platform based on a user order with a content broker, the system being configured to perform the method according to the fifth aspect.
According to a seventh aspect of the present invention there is provided a method for content data ordering by a user at a content broker or composition platform, comprising the steps of: (a) establishing a connection to the content broker or the composition platform; (b) initializing of a user relation of the user at the content broker or the composition platform; (c) composing the data of the order by the user supported by the content broker or the composition platform and at least one content provider; (d) ordering the composed data at the content broker or the composition platform.
Preferably, connecting of a user device comprises providing a user relation and more preferably performing the underlying connection to the content broker or the content composition platform by means of a portable device or any other device with online connectivity.
The user relation is preferably subsequently defined by at least one of a fixed line identifier, a host device identifier, a caching device identifier, addresses, types or identifiers of a portable device, and preferably by the use of a subscriber identity module or similar component or a card integrated or attached to the respective device.
The content data is preferably provided from different content providers and preferably the order is personalized for a specific user and more preferably composed of several content data.
According to a eighth aspect of the present invention there is provided a system for data ordering by a user at a content broker or content composition platform, the system being configured to perform the method according to the seventh aspect.
According to a ninth aspect of the present invention there is provided a method according to the first aspect, the method being combined with the method according the third aspect, and/or the method according to the fifth aspect, and/or the method according to the seventh aspect.
According to a tenth aspect of the present invention there is provided a system according to the second aspect, the system being combined with the system according the fourth aspect, and/or the system according to the sixth aspect, and/or the system according to the eighth aspect.
The content broker as used herein can be understood as a system having a function for sales and distribution between different content owner/provider and the content user. The content broker can also be a system for operating the content composition platform. Examples for content owners/providers are publishers, news-agencies, television broadcasting companies, event managing companies, movie production companies etc. Examples for content broker systems are online store systems (e.g. Amazon), online book store systems,
online video rental store systems (e.g. having different content as movies, series, documentaries, music shows, children movies or shows etc.) and so on.
The content composition platform can be for example a system preferably software at a computer center, that collects and merges contents from different content owners/providers according to the user's online order. The user's order (also a subscription) could be made for one working day with the following content: Daily news show, basketball sport news, the economy part of a newspaper as a .pdf-document. According to the user's specification the order can be split in several container files and subsequently forwarded to the content adaption and delivery platform.
According to a eleventh aspect of the present invention there is provided a caching device for providing of content data to be picked up by a portable device through a high-speed wireless connection, the caching device comprising at least one of the following a controller and a processor; a main volatile memory, preferably a DDR3 type memory; a non-volatile program and system memory, preferably adapted for fast set-up time; a content data memory, preferably a flash memory with several tens of GByte capacity with a hardware architecture adapted for high speed access; a rechargeable battery; a battery management module for battery and other supply line voltage monitoring; a transport radio module with very high throughput, preferably Gbit/s or Multi Gbit/s WLAN based on IEEE 802.1 lac or IEEE 802.1 lad; and an activation radio, preferably Near Field Communication and/or Bluetooth Low Energy, and/or iBeacon, and/or low power variants of Wi-Fi, and/or a wireless sensor network, and/or an active or passive RFID technology.
Preferably, the caching device further comprises a socket or plug connector with a cable for wired connection and the caching device preferably further comprises a subscriber or device identity component.
Furthermore, the caching device is preferably connected with a host device by a wire or a wireless connection and wherein the caching device is optionally installed in a home network.
Preferably, the caching device is powered by the rechargeable battery during times of the content data pick-up and/or times where no content data pick-up is performed.
The caching device preferably receives electrical power during a phase of content data download by the host device using the wired connection cable and in addition charging the rechargeable battery.
Preferably, the rechargeable battery is charged by a combination of the host device and a main plug, and/or wherein the host device is preferably configured to extend the content data download phase to further charge the battery or define a timer for further battery charge at a later time.
The caching device is preferably a hardware and/or software module that is integrated in a host device and preferably shares hardware components with other devices.
Furthermore, the caching device is preferably used as a wireless repeater or a radio transceiver with very high throughput, preferably when the host device is switched on for its normal operation (e.g. TV, Internet radio).
Additionally, the caching device is preferably adapted to copy its content data to a remote data center to enable access to the content data of the caching device with the portable device on the move, e.g. in hotspots. Furthermore, for this purpose the system and methods according to aspects one to ten are preferable adapted to build a virtual copy of the caching device in a remote data center whereby the content data are directly transferred from the content broker or the composition platform to this virtual copy to avoid the upload of the content data from the caching device.
According to a twelfth aspect of the present invention there is provided a software component implementing the method according to the first aspect, and/or the method according to the third aspect, and/or the method according to the fifth aspect, and/or the method according to the seventh aspect; or implementing the system according to the second aspect, and/or the system according to the fourth aspect, and/or the system according to the sixth aspect, and/or the system according to the eighth aspect.
The invention features a couple of general advantages, especially by the promotion of the transition to digital content data. The present invention avoids the above described limitations of content consumption on portable devices and offers an attractive solution to pick up and consume content (also referred to as data or content data hereinafter) with portable devices in a
very easy and efficient way. It is hassle- free for the user - as easy as picking a printed newspaper out of the post box.
It has a simple and conversant mind model which combines the timer controlled recording of television programs on set-top boxes with hard disks or other recorders and emulates in the successive step the newspaper carry out and the take along of the newspaper e.g. to a bus or railway trip.
In some variants the content transfer to the portable device is initiated by fast activation of a caching device by a herein named activation radio, e.g. NFC (Near Field Communication) or Low Power Bluetooth. The content transfer is then performed by use of Gigabit- WLAN. By a simple "Touch and Get" usage it will be possible to transfer huge file sizes, e.g. one GByte, in a total time of a few seconds.
For example, the invention combines methods and devices in an optimized way for freshest (fastest) content provisioning to pick up the content with portable devices. In addition, the present invention is ecologically friendly since it avoids the production and transport of printed paper. Moreover, the present invention conserves power at the portable device since the total active time of the portable device to perform the use case is very short. Furthermore, the targeted Gigabit- WLAN technologies are very energy efficient related to the consumed power per transported bit. Additionally, content ordering or subscription can be adapted very flexible and the caching device can contain means to handle potential subscriptions for the user in an easy way. Thus, according to the present invention the content can be much more up-to date and can be richer (e.g. embedded videos) and the content download to a caching device at times with low traffic on the operator network unloads the operator network in busy hours.
The system described above provides a solution wherein after ordering content by a user using a central platform that ordered content is made available to the user on its portable device. The user has access to the content being stored on its portable device without access to any network. The content is preferably delivered to the caching device and further to the user's portable device without using mobile networks. After ordering the content no further interaction by the user is necessary as the content is automatically delivered to the caching
device and further to the user's portable device. The system makes use of the infrastructure of the content delivery and adaptation platform and other components of the platform of a network provider and/or an internet service provider as well as customer devices for performing the method described herein, in particular for the performing the content delivery to a user's portable device.
As seen from the perspective of the network provider the system comprises at least one of the following components: a caching device, preferably a memory equipped DSL-Router (residential gateway) or a media receiver, portable terminal devices, preferably smart phones, smart devices and/or tablets, storage systems at network nodes of the network provider's network, and customer related connection and identification means, preferably network dial-in numbers, device numbers and addresses, internet addresses and subscriber identity modules.
The system provides a central control especially timing control with respect to the whole process taking into account the present situation of the infrastructure of the network and the platform used in the system, in particular network load, limitations of network segments, comiections and load of the content and adaptation platform, the characteristics of the portable user devices and the collectivity of the total and/or regionally ordered content.
The system and method described herein is especially suitable for coping with the needs resulting from delivering high-definition video content in networks and allows the delivery of content to portable devices via fixed networks and at times of low load of the fixed networks.
The part of the system present at and the method performed at the user's home is realized in an energy saving manner. The process can be carried out at least in part without a connection to the electric supply network and without interaction of a user. By using very fast Wi-Fi technology with a transfer rate of for example Gbit/s or more (e.g. WiGig) the time for transferring content from the caching device to the portable device can be reduced substantially, preferably to seconds or few minutes.
BRIEF INTRODUCTION OF THE DRAWINGS
FIG. 1 illustrates one preferred embodiment of the present invention.
FIG. 2 illustrates the components of the caching device according to one embodiment of the present invention.
FIG. 3 illustrates the caching device according to one embodiment of the present invention.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
Some preferred embodiments are now described with reference to the drawings. For explanation purpose, various specific details are set forth, without departing from the scope of the present invention as claimed.
Fig. 1 illustrates the basic concept of the present invention according to one exemplary embodiment. In particular, Fig. 1 shows a portable device 10, 10a (e.g. a mobile phone, a tablet, a laptop etc.), a content broker or composition platform 11, a content provider 12, a public content module 13 (e.g. the world wide web), a content adaption and delivery platform 14. Fig. 1 further shows within a home environment a home gateway 15, a host device 16, a caching device 17.
The basic method and approach for fast content (also referred to as data or content data hereinafter) provisioning and pick up of the content with poitable devices might be described by the following five steps as illustrated in Fig. 1 with encircled reference numerals 1 to 5:
1. Content ordering including initialization of the customer relation at a content broker or at a content composition platform 11 by portable device 10a;
2. content provisioning, adaptation and delivery by a corresponding platform, e.g. the content adaption and delivery platform 14, based on the utilization of an operator network;
3. content download with the inclusion of a home gateway 15 to a caching device 17 (or caching module) which is wired or wireless connected to or integrated in a host device 16;
4. content pick up with a portable device 10 from the caching device 17 by use of a Gbit/s or Multi-Gbit/s wireless technology;
5. content consumption independent from connection to an operator network on the portable device.
Although portable device 10 and 10a illustrated in Fig. 1, can be one and the same portable device it is clear that different portable devices can be used in the different steps. For example, a user might order the content in step 1 with his/her mobile phone 10a, whereas the content pick up or consumption is then done on his/her tablet 10. Other combinations of portable devices are possible as well. Fig. 1 shows an exemplary implementation of such a method and system for a consumer in a home scenario and illustrates the underlying principle. The above mentioned steps are subsequently explained in more detail with reference to Fig. 1.
1. Content ordering:
The content is ordered at a content broker or composition platform 11 or directly at a content provider 12. Thereby, the user can use his portable device 10a or any other device with online connectivity. The order can be made personalized and may be composed of several content items from different content providers 12 with different content types (newspaper, magazine, TV show, movie, etc.) or multimedia types (text, pictures, audio, video, etc.). A corresponding content broker or composition platform 1 1 will support the user to select and compose his content individually. a) Initialization of the customer relation:
For the initialization of the customer relation it is advantageous to identify and involve one or more of the used items of the consumer sphere which is at the download sink side. For example these items may be: Fixed line identifier, host device identifier, caching device identifier, addresses, types or identifiers of the portable devices 10a. A relationship between the initial first content ordering and one or more of the consumer devices involved in the download process (host device 16, caching device 17, portable device 10) may be established. Furthermore, to define this relationship a subscriber identity module
(e.g. embedded SIM) or similar component or card integrated or attached to the caching device 17 may be used. The established relationship can then be used for recurring content provisioning commonly used in subscription models. . Content provisioning, adaptation and delivery by corresponding platforms based on the utilization of an operator network
The content broker or composition platform 11 will provide the content for the order. It obtains the content from different content providers 12 or publically available content sources (or content modules) 13. This platform 11 composes the content for the customer, whereby the content composition can be based on diverse rules. Examples for such rules are:
"content delivery to the caching device 17 before a defined point in time;
"newscast not older than 2 hours with respect to a defined point in time;
■sport clips not older than 24 hours and only if teams of German soccer league
are involved;
"randomly selected music from a defined category e.g. oldies originated between
1970 and 1990 not more than 15 minutes in total;
"data volume to be delivered not more than a defined amount e.g. 2 GByte.
Then, by use of high bandwidth fixed network e.g. optical fiber, the content is transferred to the content adaptation and delivery platform 14. There the content may be transcoded for portable devices defined during the initialization of the customer relation and may be adapted to the capability of the customer's access network, e.g. by selection of an appropriate video resolution. The content may be subject to digital right management procedures aware of the content type or momentariness and the context the customer will consume the content. If required corresponding credentials for the later consumption of the content can also be generated. The content may be packed in several container files to enable a partially download
at different times or to assign the content to different persons of the household. This approach also facilitates the control and adaptation of the download process to the network load. The content may be buffered at storage equipped nodes in the operator network which especially is useful if a lot of customers want to get the same content e.g. a regional newscast or newspaper. Finally the content parts or the corresponding container files are scheduled for download by the content adaptation and delivery platform 14. Therefore, this platform optimizes content buffering at the operator network cache storages, delivery scheduling and network load distribution based on consumer pre-settings (e.g. number of subscriptions for the different contents).
In particular, the operator network cache storages are local storage devices located near one or more customers, e.g. a local operator gateway station for 20.000 clients. The operator network cache storages may therefore be able to provide local content for local clients, i.e. a limited number of clients within a predefined area. The predefined area may comprise a whole city or a certain part of a city. Thus, the number of clients may be a number living in the predefined area. The local content may be local news about the city the clients are living in or other local information specifically interesting for the clients in the exchange area the local operator gateway station.
The real download of each content part or container file is then triggered by a host device 16 in cooperation with the content adaptation and delivery platform 14. The host device 16 is a consumer device with a timer controlled recording or storage function on an external storage or memory device herein called caching device. Potential host devices which can be extended by some for the method necessary functionalities are: residential gateways, set-top boxes, smart TVs, Internet radios, smart home gateways, media server etc.. A special caching device for the method is part of the invention and is described subsequently.
3. Content download to a caching device 17 with the aid of a host device 16:
The host device 16 will activate itself at a given time by a first initial timer e.g. at night. After activation it will get a set of working timers from the content adaptation and delivery platform 14, one working timer for each assumed container file. Based on the working
timers the host device 16 is activated and downloads the container files from the content adaptation and delivery platform 14 and stores the content at the caching device 17. If necessary corresponding credentials to consume the content are also transferred to the caching device 17. After each download process the host device 16 and the caching device 17 return to their low power stand-by mode. If the caching device 17 is wired connected to the host device 16 e.g. by means of USB it is not supplied with power over this connection during the stand-by mode of the host device 16.
Content pick up:
The user activates the caching device 17 e.g. with help of an activation radio by a single click on his portable device 10 and/or approximation of the portable device 10 to the caching device 17, if for example NFC is used. The activation radio can further serve to disclose the user identity, if several person of the household utilize the same caching device. Furthermore, this step shall ensure that the portable user device 10 is in close range to the caching device 17 with excellent reception of an additional wireless connection to be established immediately. This wireless connection, which is named transport radio, shall have Gbit/s or Multi-Gbit/s throughput capacity (e.g. Wi-Fi based IEEE 802.1 lac or WiGig based on IEEE 802.1 lad) and will be used to transport the content from the caching device 17 to the portable device 10. Credentials to consume the content may also be transferred to the portable device 10 with the help of the transport radio. If necessary the credentials may be adapted before the transfer by the caching device 17. After completion of the content transfer the caching device 17 returns to stand-by mode.
Content consumption:
The content and potentially for the content consumption required credentials are now available on the portable device 10 and the content can be consumed everywhere especially at locations with no or poor network connectivity. For the content consumption standard software shall be used.
In the following one exemplary embodiment of a caching device 17 is described in more detail, which is completely supporting the above outlined general method of the present invention. The caching device 17 is herein after named eContent tube 17. It can be seen as the electronic form of a paper tube and emulates the newspaper carry out and the take along of the newspaper e.g. to a bus or railway trip. The eContent tube is especially designed as low cost retrofit device to add missing functionalities for the described method to host devices like residential gateways or set-top boxes. Retrofitted are hardware memory, activation radio, high speed transport radio (e.g. WiGig), status visualization, optionally subscriber identity module missing software functionalities and battery power supply and management for low power consumption.
The eContent tube 17 is a memory device to enable a content pick up for portable devices 10 before leaving the consumers home. The eContent tube 17 shall work for any type of content and is a hardware component for a system based on the above described method for fast content provisioning to pick up the content with portable devices 10. A schematic block diagram of the eContent tube 17 is shown in Fig. 2. Its hardware consists of following components: a controller and a processor 1701; main and volatile memory 1709, e.g. DDR3; non- volatile program and system memory 1708, e.g. NOR Flash for fast set-up time; content memory 1707 e.g. flash memory with several or several tens of GByte with a hardware architecture optimized for high speed access; rechargeable battery 1706; battery management module 1705 for, battery and other supply line voltage monitoring; socket or plug connector 1704 with cable for wired connection (incorporating power supply), e.g. USB 2.0 or 3.0; transport radio module 1703, e.g. Gbit/s or Multi Gbit/s WLAN based on IEEE 802.1 lac or IEEE 802.1 lad (WiGig); activation radio 1702, e.g. NFC or Bluetooth Low Energy; and optional a subscriber or device identity component 171 1, e.g. embedded SIM card (optional). Referring to Fig. 2 and Fig. 3, the eContent tube 17 is connected by a wired connection 1704, preferable by use of USB 2.0 or 3.0, to the host device 16. To establish a customer relation the eContent tube 17 may optionally contain a subscriber identity module 1711 (e.g. embedded SIM) or similar component or may involve such a component present in the host device 16.
Content Download:
The host device 16 can download content over a wide area network from a content provider
12, content broker 1 1 or the Internet 13 and store the content on the eContent tube 17 using the wired connection 1704. Typically this process will be done late at night or in the early morning hours under the control of pre-set and network administrated timers. In this phase the eContent tube 17 behaves like a USB connected external storage device. After the download the host device 16 and the eContent tube 17 can return to a stand-by mode. If the necessary functionalities on the host device 16 are not installed by factory, it should be possible to implement them by software update. The download process and the availability of new content can be visually indicated e.g. by LEDs 1710 at the eContent tube 17.
Content pick up by a portable device 10:
To initialize a content transfer (content pick up) from the eContent tube 17 to a portable device 10 (tablet, smart phone, ebook reader etc.), the portable device 10 shall activate the eContent tube 17 by a wireless short range low power technology (e.g NFC, Bluetooth Low Energy, iBeacon, low power variants of Wi-Fi, wireless sensor networks etc.). This radio can be denoted as activation radio 1702. The activation radio 1702 triggers immediately the establishment of a further wireless connection (transport radio 1703) which shall support Gbit/s or Multi Gbit/s data rate. Besides the awakening of the eContent tube 17 the activation radio 1702 may be used to exchange necessary credentials and parameters to establish the transport radio 1703 connection. Both, the activation radio 1702 or the transport radio 1703, are potential ways to exchange additional credentials for the consumption of the content on the portable device 10 later-on. Candidates for the transport radio 1703 are, for instance, WLAN IEEE 802.1 lac, IEEE 802.1 lad (WiGig), UWB (Ultra- wideband) or other very high throughput technologies in frequency bands above 6 GHz or in the THz frequency range. During content pick up the host device 16 typically stays in standby mode and does not provide any service for the consumer.
Power Supply:
During the content download phase the eContent tube 17 gets its power from the host device 16 using the wired connection cable 1704 (e.g. power over USB). At this time also the rechargeable battery 1706 is loaded. If the time to the download phase is not sufficient to recharge the battery 1706 to a defined level, the host device 16 can extend the download phase for battery charge only or define a further timer for battery charge.
During the pick-up-phase and its own stand-by phase the eContent tube 17 is preferably powered by the rechargeable battery 1706, and during these times the host device 16 is typically in stand-by and does not supply power over the wired connection 1704.
Design for fast set-up and operation:
To achieve best performance, which means that the overall process for content pick up should be completed within a few seconds, the hard and software components and architectures must be selected and designed carefully for both the portable device 10 and the eContent tube 17:
The user interfaces should be fast and simple e. g. "Touch & Get". Corresponding solutions can be based on use of an activation radio or timers.
Gigabit WLAN technologies based on IEEE802.11ac and IEEE802.i l ad offer several technology options like peer-to-peer connections (Wi-Fi Alliance Technical Committee - P2P Task Group, "Wi-Fi Peer-to-Peer (P2P) Technical Specification", 2010). The best options of new service or network discovery possibilities for the described method should preferably be selected. One candidate for service or network discovery is the newly defined Wi-Fi Aware technology (Draft described in: Wi-Fi NAN Technical Specification DRAFT vO.0.24, https://www.wi-fi.org wi-fi-nan-technical-specification-draft-v0024)
Preferably, no long boot or set-up processes should be allowed to take place. Set-up time until the content pick up starts should preferably be below 1 second. Suitable means are fast boot techniques (http://www.makelinux.com/emb/fastboot/omap) and adapted memory selection and memory architectures e.g. NOR flash memory and, for the transport radio, fast initial set-up (P802.11ai - IEEE Draft Standard for hiformation Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications: Amendment- Fast Initial Link Setup) and fast session transfer (IEEE Standard for Information technology—Telecommunications and information exchange between systems—Local and metropolitan area networks— Specific requirements-Part 11 : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Amendment 3: Enhancements for Very High Throughput in the 60 GHz Band).
The content flash memory should preferably support access speed with several Gbit/s and may make use of parallel processing architectures if necessary.
While the invention has been illustrated and described in detail with reference to the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and not restrictive. It will be understood that changes and modifications may be made by those of ordinary skill within the scope of the following claims. In particular, the present invention covers further embodiments with any combination of features from different embodiments described above and below. For example, the caching device 17 (eContent tube) may not be a separate device. It can be integrated e.g. as a module in the host devices 16 like residential gateways, set-top boxes, smart TVs, Internet radios, smart home gateways, media server etc.
Another alternative will be its integration with other memory devices used for timer controlled download like USB-hard-disks or memory sticks. Furthermore, to perform a content transfer (content pick up) from the eContent tube 17 to a portable device 10 (tablet, smart phone, ebook reader etc.), both the portable device 10 and the eContent tube 17 might be activated by a timer at a given time. The activation radio is not necessary or is not be used then. Moreover, the eContent tube 17 can also be operated as cache storage in upload direction (e.g. for data upload to a remote data center ). If the host device 16 is switched on for its normal operation (TV, Internet radio), the eContent tube 17 can also serve the wireless home network e.g. as a repeater or a WiGig radio transceiver. Furthermore, the eContent tube 17 may have a virtual copy or clone at a remote data center (cloud), which contains the same content as the eContent tube 17 at home. This enables access to the same content on the move, e.g. in hotspots.
Furthermore, in the claims the word "comprising" does not exclude other elements or steps, and the indefinite article "a" or "an" does not exclude a plurality. A single unit may fulfil the functions of several features recited in the claims. The terms "essentially", "about", "approximately" and the like in connection with an attribute or a value particularly also define exactly the attribute or exactly the value, respectively. Any reference signs in the claims should not be construed as limiting the scope.
The invention provides a method and system for wireless high speed data pick up with a portable device from a caching device; a method and system for data download from a content adaptation and delivery platform to a caching device; a method and system for data composition by a content composition platform based on a user order with a content broker or a content composition platform; and a method and system for content data ordering by a user at a content broker or composition platform or a combination thereof. In addition, it is provided a caching device for providing of content data to be picked up by a portable device through a high-speed wireless connection. The described methods and systems can be combined to an overall method and/or system for end-to-end delivery from a content provider to a portable user device.