JP6335976B2 - Computer program and computer-readable recording medium - Google Patents

Description

  Wireless mobile communication technology utilizes various standards and protocols to transmit data between a transmitting station and a wireless device (eg, mobile device). Some wireless communication technologies utilize orthogonal frequency division multiplexing (OFDM) combined with the desired digital modulation scheme by the physical layer. Standards and protocols using OFDM are LTE (Long Term Evolution) of 3GPP (Third Generation Partnership Project), WiMAX (Worldwide Interoperability is an E group registered in the industry as an E group) and Electronics Engineers) 802.16 standard (eg, 802.16e, 802.16m), and the IEEE 802.11 standard commonly known to industry associations as WiFi.

  In the 3GPP Radio Access Network (RAN) LTE system, the transmitting station is E-UTRAN (Evolved Universal Terrestrial Access Network) Node Bs (also referred to as Evolved Node Bs, Improved Node Bs, eNodeB, or eNBs). And radio network controllers (RNCs) that communicate with wireless mobile devices, known as user equipment (UE). In IEEE 802.16 WiMAX® RANs, a transmitting station may be referred to as a base station (BS). In IEEE 802.11 WiFi RANs, a transmitting station may be referred to as a WiFi wireless access point (WAP).

  Also, wireless mobile communication technologies can include device-to-device (D2D) communication where two mobile devices can communicate directly with each other without a transmitting station. The mobile device may include a radio that communicates with the transmitting station and a radio that communicates directly with other mobile devices. If the radio bands are sufficiently distant, multiple mobile devices can be active at the same time (ie, the wireless device may communicate to the base station and other wireless devices simultaneously). Multiple radios may be active at different time intervals if the bands are not far enough to avoid significant interference. In addition, a wireless device including only one wireless device may communicate with a transmitting station and other mobile devices at different time intervals.

The features and advantages of the disclosure will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, which together illustrate, by way of example, the disclosed features.
According to an example, a block diagram of a requesting wireless device, a providing wireless device, and a transmitting station is described. In accordance with an example, an example of an operator-assisted device-to-device discovery process that utilizes data service notifications is described. An example of an operator-assisted device-to-device discovery process that utilizes a data service request will be described according to an example. Fig. 4 represents a flowchart of operator-assisted device-to-device discovery at a transmitting station according to an example. FIG. 6 depicts a flowchart of operator-assisted device-to-device discovery at a wireless device, according to an example. In accordance with an example, a diagram of a transmitting station, a requesting wireless device, and a providing wireless device is described. In accordance with an example, a diagram of a mobile device is described. In the following, reference is made to the exemplary embodiments shown. A specific language is used to describe the exemplary embodiment. It will be understood, however, that this is not intended to limit the scope of the invention.

  Before the present invention is disclosed and described, the present invention is not limited to the specific structures, process steps, or materials disclosed herein, but is extended to equivalents as will be appreciated by those skilled in the art. I want you to understand. It should also be understood that the use of terms employed herein is used only for the purpose of describing particular embodiments and is not intended to be limiting. The same reference numbers in different drawings represent the same element. The numbers used in the flowcharts and processes are provided for clarity in the illustration of steps and operations and do not necessarily indicate a particular order or sequence.

Definitions As used herein, the terms “mobile device”, “wireless device”, or “wireless mobile device” refer to, for example, smartphones, tablet computing devices, laptop computers, such as iPod Touch®, etc. May refer to computing devices capable of wireless digital communications, such as other multimedia devices, or other types of computing devices that provide text or voice communications.

  The following provides an initial overview of technology embodiments, after which specific technology embodiments are described in further detail. This initial summary is intended to assist the reader in understanding the technology more quickly, and is not intended to identify key or essential features of the technology, and is claimed. It is not intended to limit the aspects of certain subject matters.

  Device-to-device (D2D) communication may be used after multiple wireless devices (eg, mobile devices) first “discover” each other. The D2D discovery process can be a high resource consuming ad hoc that is a D2D network including authorized and unauthorized networks. Authorized networks include the use of a portion of the radio spectrum that is sold, licensed, or utilized by private or government radio transmission system operators. The D2D discovery process may include multiple mobile devices that randomly transmit potential peer requests aiming for other mobile devices to wait during that same period. Periodic polling of the D2D discovery process trying to find other devices to wait can accelerate the battery drain of the mobile device and cause significant interference in the radio band.

  Multi-radio mobile devices include multiple multi-radio access technologies (eg, LTE and WiFi). The operator network that utilizes the transmitting station is, for example, a wide area network (WAN) such as an authorized band cellular network that utilizes the LTE or IEEE 802.16 standard, or an unauthorized band that is an IEEE 802.11 (ie, WiFi) Or a local area network (LAN). The ad hoc which is a D2D network may exist in the same band as the operator network. Alternatively, an ad hoc that is a D2D network may include an OOB (out-of-band) network (eg, an unlicensed or licensed band different from the operator network band). The likelihood that two single-wireless wireless devices will wait (ie receive) and transmit at the same time may be low, depending on the sleep / idle pattern of the wireless device, traffic load, and other factors. The possibility of two TDD (time-division duplex) (ie time-shared) multi-radio wireless devices waiting and transmitting at the same time is even further, since the radios of the wireless devices (eg LTE and WiFi) alternate the active time in turn. It may be low. Therefore, the D2D discovery process may be even longer on TDD multi-radio devices than on single radio devices. And the resources consumed (including bandwidth and power) may increase.

  D2D discovery may be more efficient and consume less power by utilizing an operator network that assists ad hoc, which is a D2D network, in the D2D discovery process. Utilizing operator network assisted D2D discovery can improve performance for multi-radio devices in simultaneous operation (eg, transmission) or in TDD mode. The operator network assisted D2D discovery used here may be referred to as operator assisted D2D discovery.

  FIG. 1 illustrates a plurality of wireless devices (eg, mobile devices 220 and 230) configured to communicate 214 and 212 with a transmitting station 210 via an operator network. The plurality of wireless devices are configured to communicate 222 with each other via ad hoc, which is a D2D network. The device discovery process can include a device discovery message transmitted using the operator network. The device discovery message indicates at least a plurality of wireless device pairs in a device discovery period during which two wireless devices discover each other and allow each other to communicate with each other via ad hoc, which is a D2D network. The device discovery process assisted by the operator network can improve the speed and power efficiency of D2D device discovery.

  The following provides additional details of several examples. FIG. 2 illustrates an example of an inter-device discovery process with operator assistance. At least two wireless devices may communicate with the operator network. The requesting wireless device may be a wireless device (eg, a mobile device) that requests data services and / or a specific subscriber (or multiple subscribers) at specific time intervals. Data services utilized herein can include data content and / or services. The content can include a multimedia stream, video stream, audio stream, graphics file, audio file, text file, executable file, multimedia file, or another type of data file. Services can include games, social networks, and other interactive services. The providing wireless device can be a wireless device configured to provide data services for the requesting wireless device at specific time intervals. A wireless device can request a data service during one interval of time (eg, a requesting wireless device) and provide a data service at another interval of time (eg, a providing wireless device) Can do. The requesting wireless device and the providing wireless device may have prior authentication from the operator network 300a-b.

  When a user of a requesting wireless device requests a data service and / or a particular plurality of subscribers, the requesting wireless device can send a request for the data service and / or a particular subscriber 302 to the providing transmitting station. . A request for a data service may include a request for a data service and / or a request for a particular subscriber. Unicast messages can be used to send requests for data services. A unicast message is a message transmitted by a wireless device to a wireless device. The request can include an identification of the requested data service. The request may also include client specific information such as power, load, location, and other similar information for the requesting wireless device, for example.

  Upon receiving a request for a data service, the operator network can determine whether the data service can be provided via a D2D connection (304) or whether the data service is only available via a transmitting station. . If the operator network determines that the data service may be delivered via a D2D connection, the operator network may check some information. If the operator network has access to a data storage location (eg, database or cloud application) of multiple subscriber services available, the operator network may be the requested subscriber or a specific multiple subscription When subscribers are not requested, multiple subscribers within the service area are relevant as well as willing to share relevant data (eg permission) with multiple peers (eg requesting wireless devices) The data storage location may be checked to determine if it has the indicated ownership of the data service. The operator network may identify one or more potential serving wireless devices (eg, server devices) that provide data services (306).

  If the operator network has access to specific location information for subscribers in the operator network, the processor in the operator network checks the location of the requesting wireless device against potential serving wireless devices in the service area. May be. A service area may be a cell for a transmitting station or node. The service area includes a macro cell related to the macro evolved Node B (macro eNB), a cell related to the low output power node (LPN), a macro cell related to the macro eNB, a pico cell related to the pico eNB, and a femto eNB. A femto cell associated with the home cell, a home cell associated with the home eNB (HeNB), or a WiFi access point (WAP).

  Depending on the information available to the operator network, the operator network may request, have the requested data service, attempt to share the requested data service, and / or be in the vicinity or proximity of the requesting wireless device. One may limit the scope of the pool of potential peers. The operator network can narrow the pool of potential peers to the list of potential serving wireless devices. The transmitting station may send a multicast device discovery message to potential serving wireless devices. Otherwise, the transmitting station can send a broadcast device discovery message 308b to a pool of potential peers in the service area. Multicast and broadcast messages can be messages from one wireless device to multiple wireless devices. In other examples, the transmitting station may send a unicast device discovery message to a potential serving wireless device. The transmitting station can also transmit a device discovery message 308a to the requesting wireless device. The device discovery message may include a proposed device discovery period 310 for D2D that is an ad hoc network. In other examples, the device discovery message may include the location of the requested data service and / or the requested wireless device.

  Upon receiving the device discovery message, potential serving wireless devices may determine their current state (eg, power, traffic load, and other) to determine whether the wireless device can participate in D2D data service sharing. May be checked. If the device discovery message includes the requested data service, whether the potential serving wireless device also has permission to share the requested data service and the requested data service available to the wireless device You may check.

  When location information is included in the device discovery message, potential serving wireless devices also check their location to determine if at least one potential serving wireless device is in the vicinity of the requesting wireless device. May be. In one example, the wireless device may have a location mechanism, such as a GPS (global positioning system) receiver, for example, to determine the current location of the wireless device. Other location mechanisms may also be utilized.

  If the potential serving wireless device has the requested data service, the wireless device attempts to share the requested data service and / or a wireless device that is in proximity to or close to the requested wireless device. A potential serving wireless device may broadcast a data service notification 312 to the requesting wireless device on the D2D link during the device discovery period 310. During the proposed device discovery period, the requesting wireless device may wait on a D2D link for data service notification from a potential serving wireless device. The notification includes information about data services available from potential serving wireless devices. After successfully receiving the data service notification, the requesting wireless device may send an acknowledgment 316 on the D2D link indicating the requesting wireless device's acceptance to pair with the potential serving wireless device. If the data service notification and acknowledgment (ACK) is successfully received, the D2D communication 320 may then be set up between the requesting wireless device and the providing wireless device utilizing the D2D link.

  In another example, the transmitting station may send a first device discovery message that includes a first device discovery period only to the requesting wireless device and the potential serving wireless device in the first pair of wireless devices. . The transmitting station may transmit a second device discovery message including a second device discovery period to a second requesting wireless device and a second potential providing wireless device in the second pair of wireless devices. . The second device discovery period occurs at a different time interval from the first device discovery period and the others.

  FIG. 3 illustrates another example of a process for inter-device discovery with operator assistance. The requesting wireless device may broadcast a request notification 314 to potential serving wireless devices on the D2D link during the device discovery period 310. During the proposed device discovery period, potential serving wireless devices in the service area may wait on the D2D link for request notification. After successful receipt of the request notification, and then the potential providing wireless device may grant permission and resources (provided that the desired quality of service (QoS) to support the requested wireless device to the requested wireless device). The potential serving wireless device sends an acknowledgment 318 indicating the permission of the potential serving wireless device to pair with the requesting wireless device if it has a sufficiently good channel quality). May be. If the request notification and acknowledgment are successfully received, the D2D communication 320 may then be set up between the requesting wireless device that utilizes the D2D link and the providing wireless device.

  In other examples, during the device discovery period, the requesting wireless device may broadcast a request notification, and a potential serving wireless device in the service area may broadcast a data service notification. During the proposed device discovery period, the requesting wireless device may wait for data service notification, and a potential serving wireless device in the service area may wait for request notification. . Mechanism-based contention may be utilized to resolve situations where data service notifications are sent substantially simultaneously as request notifications. The wireless device may send an acknowledgment indicating permission to pair. When a request notification and an acknowledgment are successfully received, or when a data service notification and an acknowledgment are successfully received, D2D communication is between the requesting wireless device and the providing wireless device utilizing the D2D link. In between, it can be set up at that time.

  After the device discovery period stops to save power, the requesting wireless device and the providing wireless device may stop waiting for or sending notifications. In an example, the device discovery period can be from 10 milliseconds (ie, 10 msec) to 5 seconds (ie, 5 sec). In the discovery period, the device discovery period is for the provisioning wireless device to transition from sleep mode or idle mode to active or connected mode so that the provisioning wireless device can receive a request notification or send a data service notification. It may be long enough for that. In another example, the duration of time between sending the device discovery message and the start of the device discovery period transitions from sleep or idle mode to active or connected mode and still receives request notifications in the discovery period. Or may be long enough for the serving wireless device to send a data service notification. In an embodiment, if the requesting wireless device and the providing wireless device are successfully paired (eg, communication via a D2D link) within the device discovery period, the requesting wireless device or the providing wireless device indicates a successful pair message. May be transmitted to the transmitting station. In other embodiments, if the requesting wireless device and the providing wireless device cannot be paired (eg, not communicating via the D2D link) within the device discovery period, the requesting wireless device or the providing wireless device may receive a failed D2D connection. A message may be transmitted to the transmitting station. The transmitting station may transmit another device discovery message indicating a later device discovery period to the requesting wireless device and the providing wireless device that cannot communicate with each other through the D2D link and cannot be paired. In other examples, the transmitting station may transmit other device discovery messages indicating later device discovery periods to requesting wireless devices and potential serving wireless devices in the service area. In another example, the transmitting station may send a message “no available serving wireless device available” to the requesting wireless device indicating that there is no potential serving wireless device available. The message “No available wireless devices available” indicates that there are no potential wireless devices present in the D2D transmission range, or there are no wireless devices authorized to share data services with the requesting wireless device. May occur. If there are no provisioning wireless devices available via the D2D link, the transmitting station may continue to provide data content or services via the operator network connection.

  FIGS. 2 and 3 illustrate an operator network utilized to propose a relatively short common device discovery period to speed up the process and improve the success probability of “peer pairing”. Sending and receiving requests for data services and / or “during air signaling” including subscriber messages and device discovery messages may be included in protocols or standards utilized by the operator network. In reducing device discovery to a limited device discovery period that utilizes operator network connectivity, instead of waiting and / or transmitting on the ad hoc network alone on D2D for longer discovery time durations, Meanwhile, the power and resources of the wireless device can be saved, and the bandwidth consumption of the D2D link can be reduced for less transmission. For the bits transmitted, the operator network connection can be more efficient than ad hoc, which is a D2D connection. For example, in some applications, WiFi can consume 10 to 100 times more power than using the WAN protocol for the bits transmitted. That is, utilizing the WiFi D2D link without assistance from the operator WAN for device discovery may increase the drain rate of the wireless device battery.

  Utilizing device discovery messages via an operator network (eg, operator assisted D2D discovery) may provide additional benefits beyond utilizing protocols such as, for example, WiFi Direct or Bluetooth. In WiFi Direct or Bluetooth, at least one of the plurality of users of the plurality of wireless devices owns a D2D connection between the requesting wireless device and the providing wireless device. Security authentication is performed by one of a plurality of wireless devices. Establishing security and setting up a wireless device physically or manually so that the devices can see each other can be cumbersome. Security authentication addresses user credibility and attempts to protect users from each other. In WiFi Direct, users of multiple wireless devices may be known to each other. And when a plurality of users are near each other, a plurality of security keys and other identification information may be exchanged. Setting up a D2D connection utilizing WiFi Direct or Bluetooth can be cumbersome and may utilize humans as a manual process authentication.

  In operator assisted D2D discovery, the wireless device may already be authenticated via an operator network connection so that additional authentication may not be required. In addition, operator-assisted D2D discovery can provide automatic authentication without manual human action.

  The operator network is an ad hoc network that is a D2D network for finding the requested data service and / or subscribers for the benefit of determining the proximity or proximity of the requested data service and / or the subscriber associated with the requested wireless device. Can be provided without using the random search process above. The operator network may store information about data services available from a particular plurality of subscribers at a data storage location. The operator network can store information in a data storage location. The information is information that allows a plurality of subscribers to access a plurality of specific data services from a specific plurality of subscribers. The operator network can also store information about the location of multiple subscribers in a data storage location. The operator network can use the device discovery message to wake up the provided wireless device from the idle mode. Allowing the serving wireless device to remain idle until the requesting wireless device is ready can reduce the battery drain of the serving wireless device. The operator network can pair a wireless device requesting a data service with a wireless device capable of providing the requested data service. The operator network can schedule a common device discovery period between the serving wireless device and the requesting wireless device communicating on the D2D link. If multiple channels or subchannels are utilized for device discovery, the device discovery message may include an indication of the channel or subchannel for device discovery on the D2D link. However, the operator network may not control the providing wireless device and the requesting wireless device. The operator network can suggest or suggest a device discovery period for a pair of wireless devices communicating over the D2D link.

  In other examples, the device discovery message provides information about the requested data service and / or subscriber in the reduced or encrypted message to reduce the size of the message being sent. Can do. The reduced or encrypted message may be mapped to an identifier of a subscriber, requesting wireless device, and / or providing wireless device in the data service and / or transmitting station. Requests for data service and / or subscriber messages, device discovery messages, notifications, and / or acknowledgments can include control messages with control signals. For example, the first time a data service identifier is used for a message, it may include a full identifier. In subsequent messages, control messages (having a reduced size compared to the full identifier) may be utilized. The operator network may set up rules for locations tracked by the operator network in data services and / or data storage locations (eg, databases or cloud applications). The data service and / or location may be tracked with the serving wireless device and may be updated at the subscriber's home and / or local agent. As the user moves, the data service provided by the location of the providing wireless device may be updated at different transmitting stations by the home and / or local agent. When the serving wireless device moves within the transmission range of different base stations, the data service can be used by other subscribers in the vicinity (eg requesting wireless device) without the different base stations querying the serving wireless device. Also good.

  Another example provides a method 500 for operator-assisted device-to-device discovery, as shown in the flowchart of FIG. The method may be performed as instructions on the machine. The instructions are included in at least one computer readable medium. The method includes an operation of receiving a request for data service from a requesting wireless device at a transmitting station in an operator network, as in block 510. The operation of identifying the provisioning wireless device in the operator network to provide the requested data service for the requesting wireless device is as block 520. As in block 530, the next operation in the method may be sending a device discovery message by the transmitting station to the requesting and providing wireless devices. The device discovery message provides a device discovery period for communication via ad hoc, which is a D2D network between the requesting wireless device and the providing wireless device. Ad hoc, a D2D network, provides device-to-device communication.

  In an example, ad hoc, which is a D2D network, provides unauthenticated user communication unless authentication is manually entered by the user. The request for the data service includes the identification of the requested data service or data content, the desired quality of service (QoS) requested by the subscriber, the location of the requested wireless device, the transmission power level of the requested wireless device , The requested wireless device traffic load, the requested wireless device's allowable transmission rate, and a combination of the requested information. In an example, the device discovery period can be less than 5 seconds. Ad hoc, which is a D2D network, may include licensed band networks, unlicensed band networks, wireless wide area networks (WWAN), wireless local area networks (WLAN), wireless personal area networks (WPAN), and combinations of these networks obtain. A request for a data service may be configured to be received via a unicast message. The device discovery message can then be configured to be sent via a broadcast, multicast, or unicast message. The device discovery message may prompt the providing wireless device to notify during the device discovery period. The device discovery message may then prompt the requesting wireless device to wait for notification during the device discovery period. In other examples, the device discovery message may prompt the requesting wireless device to request a data service during the device discovery period. The device discovery message may then prompt the providing wireless device to wait for the request during the device discovery period. In other examples, the device discovery message may prompt the requesting wireless device to request a data service during the device discovery period and to wait if the requesting wireless device is not transmitting. Then, the device discovery message may notify the providing wireless device during the device discovery period and prompt the user to wait when the providing wireless device is not transmitting.

  The method may further include a transmitting station authenticating the requesting wireless device and the providing wireless device by an operator network authentication protocol prior to transmitting the device discovery message. The operation of identifying a potential serving wireless device may further include a search for a data storage location to determine if it is a requested subscriber or if nothing was requested. Any subscriber has the data service requested by the requesting wireless device. If the data storage location includes multiple data service access permissions, the operation of identifying a potential serving wireless device is that the requested subscriber with the data service has permission to provide the data service to the requesting wireless device. It may further include a check. If the data storage location includes subscriber location information, the operation of identifying a potential serving wireless device includes the location of the requested subscriber with the requested data service and the location of the requested subscriber. If present, it may further include a check for permission to share data services with the requesting wireless device in the vicinity of the requesting wireless device. In the case where location information is not present at the data storage location, the operator network has a requested data service (and sharing permission) to determine whether they are near the requesting wireless device (requested) The real-time location of the subscriber may be checked. The operation of identifying a potential serving wireless device is the operation of at least one potential serving radio from a list of subscribers in the vicinity of the requested data service and a requesting wireless device authorized to provide data service to the requesting wireless device. It may further include selecting a device. If the subscriber with the requested data service (or permission to share the requested data service with the requested wireless device) is not near the requested wireless device, the operator network will have a potential serving wireless device The requesting wireless device may be notified that it will not. The operation of sending a device discovery message may further include sending the device discovery message to the requesting wireless device and at least one potential serving wireless device via a multicast message or a unicast message. The requesting wireless device and the providing wireless device may include user equipment (UE) or mobile station (MS). The requesting wireless device and the providing wireless device may be configured to connect to any combination of a wireless local area network (WLAN), a wireless personal area network (WPAN), and a wireless wide area network (WWAN). The first wireless device may include an antenna, a touch-sensitive display screen, a speaker, a microphone, a graphics processor, an application processor, internal memory, a non-volatile memory port, or a combination of these components. The transmitting station is an evolved Node B (eNodeB), a base station (BS), a macro evolved Node B (macro eNB), a low output power node (LPN), a macro eNB, a pico eNB, a femto eNB, a home eNB (HeNB) , Baseband unit (BBU), remote radio head (RRH), remote radio equipment (RRE), remote radio unit (RRU), or wireless access point (WAP).

  Another example provides a method 600 for operator-assisted device-to-device discovery, as shown in the flowchart of FIG. The method may be performed as instructions on the machine. The instructions are included in at least one computer readable medium. As in block 610, the method includes an operation of receiving a device discovery message at a wireless device from a transmitting station in an operator network. The device discovery message provides a device discovery period for communication via ad hoc, which is a D2D network between the requesting wireless device and the providing wireless device. Ad hoc, a D2D network, provides device-to-device communication. The operation of communicating with neighboring wireless devices via ad hoc, which is a D2D network, during the device discovery period is as block 620.

  In the example, ad hoc, which is a D2D network, does not provide user authentication for communication. The wireless device may be configured as a requesting wireless device. A neighboring wireless device may be configured as a providing wireless device. The method may further include a requesting wireless device that transmits a request for data service to a transmitting station. The operation of communicating with neighboring wireless devices may further include requesting data services from the serving wireless device via ad hoc, which is a D2D network, during the device discovery period.

  In other examples, the wireless device may be configured as a providing wireless device. The neighboring wireless device may be configured as the requesting wireless device. If a device discovery message is received, the method may further include a providing wireless device that wakes up from an idle state or a sleep state to an active state. The operation of communicating with the neighboring wireless device may further include notifying the requesting wireless device of the data service via ad hoc, which is a D2D network, during the device discovery period.

  The request for the data service includes the identification of the requested data service and / or subscriber, the desired quality of service of the data service (QoS), the location of the requested wireless device, the transmission power level of the requested wireless device, the requested wireless device May further include a combination of the requested traffic load, the allowed transmission rate of the requested wireless device, and the requested information. In an example, the device discovery period can be less than 5 seconds. Ad hoc, which is a D2D network, may include licensed band networks, unlicensed band networks, wireless wide area networks (WWAN), wireless local area networks (WLAN), wireless personal area networks (WPAN), and combinations of these networks obtain. The request for data service may be configured to be sent via a unicast message. The device discovery message can then be configured to be received via a broadcast, multicast or unicast message.

  The requesting wireless device may be configured to transmit a request for data service to the transmitting station. The providing wireless device may then be configured to receive a device discovery message from the transmitting station according to a wide area network (WAN) authentication protocol. The requesting wireless device and the providing wireless device may include user equipment (UE) or mobile station (MS). The requesting wireless device and the providing wireless device may be configured to connect to any combination of wireless local area network (WLAN), wireless personal area network (WPAN), and wireless wide area network (WWAN). The first wireless device may include an antenna, a touch-sensitive display screen, a speaker, a microphone, a graphics processor, an application processor, internal memory, a non-volatile memory port, or a combination of these components. The transmitting station is an evolved Node B (eNodeB), a base station (BS), a macro evolved Node B (macro eNB), a low output power node (LPN), a macro eNB, a pico eNB, a femto eNB, a home eNB (HeNB) , Baseband unit (BBU), remote radio head (RRH), remote radio equipment (RRE), remote radio unit (RRU), or wireless access point (WAP).

  In other examples, the transmitting station may be in wireless communication with a wireless device (eg, a requesting wireless device and / or a providing wireless device). Transmitting stations may be centralized, collaborative, or included within a cloud radio access network (C-RAN). In C-RAN, the functionality of the transmitting station (ie, eNodeB) is the baseband unit (BBU) that handles the pool and the remote radio unit (RRU) or remote radio head (RRH) that has the optical fiber connecting the BBU to the RRU. ).

  FIG. 6 illustrates an example of a transmitting station 210, a requesting wireless device 220, and a providing wireless device 230. A transmitting station may include an operator-assisted device-to-device (D2D) discovery device 710. Each wireless device may include operator assisted D2D discovery devices 720 and 730. An operator assisted D2D discovery device configured for a transmitting station may include a transceiver module 712 and an identification module 714. The transceiver module may be configured to receive requests for data services and / or subscribers from a requesting wireless device in an operator network. The identification module may be configured to identify a providing wireless device that provides data services for the requesting wireless device. The transceiver module may be further configured to send a device discovery message to the requesting wireless device and the providing wireless device. The device discovery message may provide a device discovery period for communication via ad hoc, which is a D2D network between the requesting wireless device and the providing wireless device. Ad hoc, a D2D network, provides device-to-device communication.

  In an example, the identification module 714 includes a data storage location 716 configured to store data services available for sharing, sharing permissions, and / or subscriber locations of operator networks. The identification module may be configured to select at least one serving wireless device 230 from a plurality of subscribers listed. If there is no subscriber in the vicinity of the requested wireless device that is authorized to share the requested data service and / or data service with the requested wireless device, the identification module "no potential provisioning wireless device available" May be configured to return a message. In other examples, the data storage location that may be coupled to the data storage location may include a database, a cloud application, or a combination of a database and cloud application. In an example, an ad hoc that is a D2D network may provide unauthenticated user communication.

  In other examples, operator assisted D2D discovery device 710 configured for transmitting station 210 can further include an authentication module 718. The authentication module may be configured to authenticate the requesting wireless device 220 and the providing wireless device 230 by an operator network authentication protocol.

  Operator assisted D2D discovery devices 720 and 730 configured for wireless devices 720 and 730 may include operator network transceiver modules 722 and 732 and D2D transceiver modules 724 and 734. The operator network transceiver module may be configured to receive a device discovery message from a transmitting station in the operator network. The device discovery message may provide a device discovery period for communication via ad hoc, which is a D2D network between the requesting wireless device and the providing wireless device. Ad hoc, which is a D2D network, may provide device-to-device communication. The D2D transceiver module may be configured to communicate with neighboring wireless devices via ad hoc, which is a D2D network, during the device discovery period.

  In the example, ad hoc, which is a D2D network, does not provide user authentication for communication. Operator network transceiver modules 722 and 732 may be further configured to transmit requests for multiple data services and / or multiple subscribers to transmitting station 210. D2D transceiver modules 724 and 734 may be further configured to request data services from neighboring wireless devices via ad hoc, which is a D2D network. The D2D transceiver module may be further configured to notify data services to neighboring wireless devices via ad hoc, which is a D2D network. The wireless devices 220 and 230 may further include a wake-up module (not shown) configured to wake the wireless device from an idle state or a sleep state to an active state when a device discovery message is received. possible. The data service is configured to transmit data content including multimedia streams, video streams, audio streams, graphics files, audio files, text files, executable files, multimedia files, and combinations of this data content There can be. The data service may be configured to transmit instructions and / or information for services such as games or social networks. The operator network transceiver module may utilize wireless WAN (WWAN) protocols 212 and 214 selected from the group consisting of 3GPP (Third Generation Partnership Project) LTE (Long Term Evolution) standards and IEEE 802.16 standards. possible. In other examples, the operator network transceiver module may utilize wireless LAN (WLAN) protocols 212 and 214 selected from the IEEE 802.11 standard. The D2D transceiver module is a 3GPP LTE standard, IEEE 802.16 standard, IEEE 802.11 standard, IEEE 802.15 standard, Bluetooth standard, wireless display port standard, WiGig standard, ultra wideband (UWB) standard, wireless HD standard, wireless home digital interface. The D2D protocol 222 may be utilized, including the Face (WHDI) standard, the ZigBee® standard, the unlicensed proprietary standard, the licensed proprietary standard, or a combination of these protocols.

  FIG. 7 provides an illustration of a wireless device such as a user equipment (UE), mobile station (MS), mobile wireless device, mobile communication device, tablet, handset, or other type of mobile wireless device. Mobile devices include, for example, a base station (BS), evolved Node B (eNB), baseband unit (BBU), remote radio head (RRH), remote radio equipment (RRE), relay station (RS), radio equipment (RE ), Including one or more antennas configured to communicate with a transmitting station such as a wireless wide area network (WWAN) access point or other type of wireless local area network (WLAN) access point (WAP) Can be configured to communicate utilizing at least one wireless communication standard including 3GPP LTE, WiMAX®, High Speed Packet Access (HSPA), Bluetooth, and WiFi. . Mobile devices can communicate utilizing separate antennas for each wireless communication standard or shared antennas for multiple wireless communication standards. Mobile devices can communicate in a wireless local area network (WLAN), a wireless personal area network (WPAN), and / or a WWAN.

  FIG. 7 also provides an illustration of a microphone and one or more speakers that may be utilized for audio input and output from a mobile device. The display screen may be a liquid crystal display (LCD) screen or other type of display screen such as an organic light emitting diode (OLED) display. The display screen can be configured as a touch screen. The touch screen may utilize capacitance, resistive film, or other types of touch screen technology. The application processor and graphics processor may be coupled with internal memory to provide processing and display performance. The non-volatile memory port may also be utilized to provide data input / output options to the user. Nonvolatile memory ports may also be used to expand the memory performance of mobile devices. The keyboard may be integrated with the mobile device or connected wirelessly to the mobile device that provides additional user input. A virtual keyboard may be provided using a touch screen.

  Various technologies, or certain aspects or portions thereof, are within tangible media such as floppy disks, CD-ROMs, hard drives, non-transitory computer readable storage media, or other machine readable storage media, for example. It may take the form of program code (ie, instructions) embodied in When program code is loaded and executed by a machine such as a computer, the machine becomes a device that implements various techniques. In the case of program code execution on a programmable computer, the computing device includes a processor, a processor (including volatile and non-volatile memory memory, and / or storage elements), a storage medium readable by at least one input A device and at least one output device may be included. Volatile and non-volatile memory, and / or storage elements may be RAM, EPROM, flash drive, optical drive, magnetic hard drive, or other media that stores electronic data. Base stations and mobile stations may also include transceiver modules, counter modules, processing modules, and / or clock modules or timer modules. One or more programs that may implement or utilize the various techniques described herein may use application programming interfaces (APIs), or reusable controls, and others. Such a program may be implemented in a high level procedural or object oriented programming language to communicate with a computer system. However, the program may be implemented in assembly or machine language as required. In any case, the language can be a compiled or interpreted language and can be combined with a hardware implementation.

  It should be understood that many of the functional units described herein are distinguished as modules to more particularly emphasize their implementation independence. For example, the module may be implemented as a commercially available semiconductor such as a hardware circuit including a custom VLSI circuit or gate array, a logic chip, a transistor, or other discrete components. A module may also be implemented in programmable hardware devices such as field programmable gate arrays, programmable array logic, programmable logic devices, or the like.

  Modules can also be implemented in software executed by various types of processors. An identified module of executable code may include, for example, one or more physical or logical blocks of computer instructions that may be organized, for example, as objects, procedures, or functions. However, the identified module executables do not have to be physically located together, but constitute a module when logically coupled together to achieve the module's intended purpose. It may contain disparate instructions stored at the location.

  In fact, a module of executable code can be a single instruction, or many instructions, and even distributed across several different code segments, across different programs, and across several memory devices. Can be done. Similarly, processing data can be identified and illustrated herein in modules, implemented in a suitable form, and organized in a suitable type of data structure. The processing data may be collected as a single data set, or may be distributed over a plurality of different locations including a plurality of different devices and may exist at least in part as an electronic signal on a system or network. Modules can be passive or active, such as agents capable of performing the desired function.

  Throughout this specification reference has been made to “examples” which means that a particular feature, structure, or characteristic described in connection with that example is included in at least one embodiment of the invention. . Thus, the appearances of the phrase “in the example” in various places throughout this specification are not necessarily all referring to the same embodiment.

  As used herein, multiple items, structural elements, compositional elements, and / or materials may be shown in a common list for convenience. However, these lists should not be interpreted as if each member of the list is individually identified as a separate and unique member. This allows individual members of such lists to be interpreted as effectively equivalent to other members of the same list based solely on what is shown in the common group, unless indicated otherwise. Should not. In addition, various embodiments and examples of the invention may be referred to herein along with alternatives to their various components. It should be understood that such embodiments, examples, and alternatives are not to be construed as being substantially equivalent to each other, but are to be considered as separate and self-contained representations of the invention.

  Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided, such as layout examples, distances, network examples, etc., to provide a thorough understanding of embodiments of the present invention. However, those skilled in the art will recognize that the invention may be practiced without one or more of the specific details, or with other methods, components, layouts, etc. In other instances, well-known structures, materials, or operations have not been shown or described in detail to avoid obscuring aspects of the invention.

  While the above-described embodiments are illustrative of the principles of the present invention in one or more specific applications, those skilled in the art will appreciate that various changes in implementation, use, and details will demonstrate the talent of the invention. Clearly, it can also be added without departing from the principles and concepts of the present invention. Accordingly, the invention is not intended to be limited except as by the claims set forth below.

Claims (17)

A computer program having a plurality of instructions for operator-assisted device-to-device (D2D) discovery, wherein the plurality of instructions are executed on a machine,
Receiving a request for data service from a requesting wireless device at a transmitting station in an operator network;
The data storage Place for storing permission whether to provide available data service and the available data service to request the wireless device per subscribers, searching in the operator network,
Wherein the request to provide the requested data services for wireless devices, the identifying the provided wireless device from said multiple subscribers stored in the retrieved said data storage location in the operator network, and the Causing the machine to send a device discovery message to the requesting wireless device and the providing wireless device by a transmitting station;
The device discovery message provides a device discovery period for communication via ad hoc which is a D2D network between the requesting wireless device and the providing wireless device;
The ad hoc, which is a D2D network, provides a computer program that provides device-to-device communication.   The request for a data service includes: identification of the data service or requested data content; requested subscriber; desired quality of service of the requested data service; location of the requested wireless device; requested wireless The requested information selected from the group consisting of: a device transmission power level, a traffic load of the requested wireless device, an allowed transmission rate of the requested wireless device, and combinations thereof. Computer program.   The computer program according to claim 1, wherein the device discovery period is less than 5 seconds.   The ad hoc, which is a D2D network, includes a licensed band network, an unlicensed band network, a wireless wide area network (WWAN), a wireless local area network (WLAN), a wireless personal area network (WPAN), and combinations thereof. The computer program according to claim 1, which is selected.   The request for a data service is received via a unicast message, and the device discovery message is transmitted via a broadcast message, a multicast message, or a unicast message. The computer program according to item.   The device discovery message prompts the providing wireless device to notify during the device discovery period and prompts the requesting wireless device to wait for notification during the device discovery period. The computer program according to any one of claims 1 to 5.   The device discovery message prompts the requesting wireless device to request the data service during the device discovery period and causes the providing wireless device to wait for the request during the device discovery period The computer program according to any one of claims 1 to 5, wherein the computer program prompts the user.   The device discovery message notifies the providing wireless device during the device discovery period, prompts the requesting wireless device to wait if the providing wireless device does not transmit, and sends the device to the requesting wireless device The computer program according to any one of claims 1 to 5, wherein the computer program requests the data service during a discovery period, and prompts to wait if the requesting wireless device does not transmit.   The method according to any one of claims 1 to 8, further comprising a plurality of instructions for authenticating the requesting wireless device and the provisioning wireless device by an operator network authentication protocol before the instruction to transmit the device discovery message. The computer program described. The instructions for identifying the providing wireless device are:
Position Ru der within transmission range of the request wireless device, searches the data store for the plurality of subscribers, or to which the subscriber determines are near the requesting wireless device, a plurality Check the current location of subscribers,
Position is that the proximity of the request wireless device, before further comprising instructions for selecting at least one of providing the wireless device from Kifuku number of subscribers, as claimed in any one of claims 9 computer program. A computer program having a plurality of instructions for operator-assisted device-to-device (D2D) discovery, wherein the plurality of instructions are executed on a machine,
Receiving a device discovery message from a transmitting station in an operator network at a wireless device;
Causing the machine to communicate a requested data service with a neighboring wireless device during a device discovery period via ad hoc, which is a D2D network;
The device discovery message provides a device discovery period for communication of the requested data service via ad hoc, which is a D2D network between the wireless device and the neighboring wireless device, and the ad hoc is a D2D network. Provides device-to-device communication,
The transmitting station, a data storage Place for storing permission whether to provide an available data service and the available data service to the adjacent radio devices per subscribers, searching in the operator network, The computer program, wherein the transmitting station selects the neighboring wireless device from the plurality of subscribers stored in the data storage location searched in the operator network . The wireless device is a requesting wireless device, and the neighboring wireless device is a providing wireless device;
The computer program product of claim 11, further comprising a plurality of instructions for transmitting a request for the data service to the transmitting station by the requesting wireless device.   The wireless device is a requesting wireless device, the neighboring wireless device is a providing wireless device, and the command to communicate with the neighboring wireless device is the providing wireless via the ad hoc that is a D2D network during the device discovery period. The computer program product of claim 11, further comprising instructions for requesting a data service from a device.   The wireless device is a providing wireless device, the neighboring wireless device is a requesting wireless device, and the computer program activates the providing wireless device from an idle state or a sleep state when the device discovery message is received. The computer program product of claim 11, further comprising a plurality of instructions to wake the user.   The wireless device is a providing wireless device, the neighboring wireless device is a requesting wireless device, and the command to communicate with the neighboring wireless device provides a data service via the ad hoc that is a D2D network during the device discovery period. The computer program product of claim 11, further comprising instructions for notifying the requesting wireless device. Storing a computer program according to Izu Re of the claims 1 10, the computer-readable recording medium. The computer-readable recording medium which stores the computer program of any one of Claim 11 to 15.

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