Patent Description:
With development of information technologies and communications technologies, various services continuously spring up, for example, a high-throughput service represented by a video service, a service with massive Internet of Things (Internet of Things, IoT for short) links represented by a smart reading meter and a health service, and a delay-sensitive service represented by unmanned driving and Internet of Vehicles. Features and quality of service (English full name: Quality of Service, QoS for short) requirements of the services are greatly different. Correspondingly, processing of service data in a communications network is also greatly different. To support different services, a network slice for providing service support for the service is deployed in the network, where the network slice includes various required function examples and corresponding processing resources and/or transmission resources. The network resource may be a virtual network consisting of a series of function entities and resources.

Different access technologies are used for different services. For example, various existing access technologies support an IoT service, for example, an NB-GSM (narrowband Global system for mobile communications), NB-M2M (narrowband machine to machine), NB-OFDM (narrowband orthogonal frequency division multiplexing), and NB-CIoT (Narrow Band Cellular Internet of Thing). In this case, how to implement communication when different technologies are used needs to be considered. <CIT> describes a system and a method allowing a user terminal in a network to simultaneously access a plurality of radio based access networks of diverse access technologies. Characteristic features are access selection adapters each one associated with a respective radio based access network, and an access technology independent access selector. An access adapter has means for receiving access technology dependant information from its respective access network and means for translating the information into access technology independent status information. The access selector comprises an access selection algorithm interacting with applications resident in the user terminal and with each access adapter for selection of a radio access network based on an individual QoS profile associated with each respective application and on said access technology independent status information.

<CIT> describes a method for supporting a service session for a wireless user device including receiving a service request associated with the wireless user device, determining at least one characteristic of the service request, and selecting, using the at least one characteristic of the service request, one of a plurality of network layers available for supporting a service session for the service request. A network layer has a wireless access technology associated therewith and, optionally, also may have a core network technology associated therewith. The selection of the network layer for a service request may be performed within the network or performed at the wireless user device under the control of the network.

<CIT> discloses a base station broadcasting a maximum data rate access parameter value representing the maximum data rate at which additional accesses can be granted to the network by the base station. The maximum data rate is received by a UE; if the access desired by said UE is at a data rate greater than the value of the maximum data rate access parameter value the transmission of an access request signal from the mobile station is inhibited.

Implementations of the present disclosure provide communicaton methods and apparatuses so as to implement communication when different access technologies are used.

In implementations a network device broadcasts the information about the access technology and the resource information corresponding to the access technology, so that a terminal device can receive a broadcast message, and obtain the information about the access technology and the resource information corresponding to the access technology. The terminal device determines, based on information about an access technology corresponding to a required service, a resource corresponding to the service, and accesses a network by using the resource. In this way, communication is implemented when a plurality of access technologies are used.

Terminologies such as "component", "module", and "system" used in this specification are used to indicate computer-related entities, hardware, firmware, combinations of hardware and software, software, or software being executed. For example, a component may be, but is not limited to, a process that runs on a processor, a processor, an object, an executable file, a thread of execution, a program, and/or a computer. As shown in figures, both a computing device and an application that runs on a computing device may be components. One or more components may reside within a process and/or a thread of execution, and a component may be located on one computer and/or distributed between two or more computers. In addition, these components may be executed from various computer-readable media that store various data structures. For example, the components may communicate by using a local and/or remote process and based on, for example, a signal having one or more data packets (for example, data from two components interacting with another component in a local system, a distributed system, and/or on a network such as the Internet interacting with another system by using the signal).

In the prior art, several access modes: <NUM> (2nd generation), <NUM> (3rd generation), and <NUM> (4th generation) coexist. A frequency band on which each mode may be deployed on is defined in the standard for different access modes, and a specific access mode is deployed on only several designated frequency bands. When an operator deploys these access modes, the operator first selects a frequency band corresponding to a specific mode, where a different frequency band is selected for each mode, and then the operator unchangeably deploys the specific mode on the selected frequency band. When a user terminal uses one of these access modes, first, frequency bands on which the access mode may be deployed on are configured for the terminal, and then the user terminal searches on these frequency bands, after finding a corresponding mode, the terminal accesses a network.

In a future network, an operator may select different access technologies to match with requirements of different services. In addition, different stations may deploy different access technologies based on requirements of service providers and requirements of the operators. Therefore, a type and a quantity of access technologies are far greater than a type of existing modes, and different access technologies may be deployed on a same frequency band. It is difficult to standardize deployment locations of access technologies and resources corresponding to the access technologies. In addition, because access technologies deployed for different stations of different operators may be different, there is great uncertainty for deployment of access technologies and services. Defining deployment locations of the access technologies in a standard may cause a waste of resources. When the deployment locations of the access technologies are not standardized, how to implement communication when different access technologies are used needs to be considered.

The present disclosure provides a solution, so that a user terminal may recognize an access technology corresponding to a service required by the user terminal, and use the access technology to access a network.

<FIG> is a schematic diagram of a relationship between a service and an access technology according to an implementation of the present disclosure. A relationship between a service and an access technology may be a many-to-many relationship. A plurality of access technologies may support a same service; and a same access technology may support different services. For example, in <FIG>, in a core & access network <NUM>, an access technology supporting a service <NUM> includes an access technology <NUM>, an access technology <NUM>, and an access technology <NUM>. In a core & access network <NUM>, an access technology supporting a service <NUM> includes the access technology <NUM>, an access technology <NUM>, and an access technology <NUM>. The access technology <NUM> supports both the service <NUM> and the service <NUM>.

In implementation of the present disclosure, a service provider (service provider) or OTT (over the top) poses a service requirement to a network operator, and the network operator selects, based on the service requirement and a characteristic of a terminal device, an access technology supporting the service. OTT is an abbreviation of "Over The Top", meaning that the Internet is used to provide various application services for a user. A service requirement usually means a corresponding QoS (quality of service) requirement of a service. A characteristic of a terminal device may mean a capability of the terminal device or a terminal device capability subscribed by a user. For example, in <FIG>, in the core & access network <NUM>, there are three types of terminal devices: terminal device types <NUM>, <NUM> and <NUM>, which need to access the service <NUM>, and the access technology <NUM>, the access technology <NUM>, and the access technology <NUM> support the service <NUM>. The core & access network <NUM> determines to select, based on the capability of the terminal device, the access technology <NUM> for the terminal device type <NUM>, the access technology <NUM> for the terminal device type <NUM>, and the access technology <NUM> for the terminal device type <NUM>.

Based on the foregoing understanding of a relationship between a service and an access technology, a solution is proposed in implementations of the present disclosure: information about an access technology and resource information corresponding to the access technology are carried by using a broadcast message, so that a terminal device selects a suitable access technology and a corresponding resource, and an operator may deploy a plurality of access technologies and a plurality of services. The information about the access technology may include an identity of the access technology. The resource may be a time-frequency resource on an air interface. The resource information includes at least one of resource location information and resource size information.

<FIG> is a schematic architecture diagram of a communications system to which an implementation of the present disclosure is applied. As shown in <FIG>, a communications system <NUM> may include a network device <NUM> and terminal devices <NUM> to <NUM>, where the network device <NUM> and the terminal devices <NUM> to <NUM> are connected in a wireless, wired, or another manner. The network device can support a plurality of access technologies and provides a plurality of services for the terminal device by using the plurality of access technologies.

It should be understood that, the technical solutions of the implementations of the present disclosure may be applied to various communications systems, such as: a Global system for mobile communications (Global System of Mobile Communication, "GSM" for short) system, a Code Division Multiple Access (Code Division Multiple Access, "CDMA" for short) system, a Wideband Code Division Multiple Access (Wideband Code Division Multiple Access, "WCDMA" for short) system, a general packet radio service (General Packet Radio Service, "GPRS" for short) system, a Long Term Evolution (Long Term Evolution, "LTE" for short) system, an LTE frequency division duplex (Frequency Division Duplex, "FDD" for short) system, an LTE time division duplex (Time Division Duplex, "TDD" for short) system, a Universal Mobile Telecommunications System (Universal Mobile Telecommunication System, "UMTS" for short), a Worldwide Interoperability for Microwave Access (Worldwide Interoperability for Microwave Access, "WiMAX" for short) communications system, a future <NUM> communications system, or the like.

The present disclosure describes the implementations with reference to a terminal device. The terminal device may communicate with one or more core networks by using a radio access network (RAN), and the terminal device may be user equipment (User Equipment, UE for short), an access terminal, a user unit, a subscriber station, a mobile station, a mobile station, a remote station, a remote terminal, a mobile device, a user terminal, a terminal, a wireless communications device, a user agent, or a user apparatus. The access terminal may be a cellular phone, cordless telephone set, a Session Initiation Protocol (Session Initiation Protocol, SIP for short) phone, a wireless local loop (Wireless Local Loop, WLL for short) station, a personal digital assistant (Personal Digital Assistant, PDA for short), a handheld terminal with a wireless communication function, a computing device or another processing device connected to a wireless modem, an in-vehicle device, a wearable device, a terminal device in a future <NUM> network, or the like.

The present disclosure describes the implementations with reference to a network device. The network device may be a device configured to communicate with a terminal device. For example, the network device may be a base transceiver station (Base Transceiver Station, "BTS" for short) in a GSM system or in CDMA, may be a NodeB (NodeB, "NB" for short) in a WCDMA system, or an evolved NodeB (Evolved NodeB, "eNB" or "eNodeB" for short) in an LTE system. Alternatively, the network device may be a relay node, an access point, an in-vehicle device, a wearable device, a network-side device in a future <NUM> network, a network device in a future evolved PLMN network, or the like.

<FIG> is a schematic flowchart of a communication method according to an implementation of the present disclosure. The method may be applicable to the communications system in <FIG>. For a relationship between a service and an access technology in this implementation, refer to the foregoing descriptions.

The method <NUM> includes the following steps.

S310: A terminal device obtains information about an access technology corresponding to a first service.

The terminal device may obtain, during service subscription, the information about the access technology corresponding to the first service. The information about the access technology may include an identity of the access technology.

S320: A network device broadcasts information about an access technology and resource information corresponding to the access technology.

The broadcasting may be performed on a common broadcast channel.

The resource may be a time-frequency resource on an air interface. The resource information includes at least one of resource location information and resource size information.

S330: The terminal device receives the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device; and the terminal device determines, based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a first resource corresponding to the first service.

Optionally, when an access technology supporting a service required by the terminal device includes at least two access technologies, during service subscription, the terminal device may further obtain priorities of the access technologies corresponding to the service. When determining the first resource, the terminal device determines, based on the information about the access technology corresponding to the first service, the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, and priority information of the access technologies corresponding to the first service, a resource corresponding to an access technology with a highest priority in the access technologies corresponding to the first service as the first resource.

S340: The terminal device sends an access request to the network device by using the first resource. The network device receives the access request that is sent by the terminal device on the first resource.

The terminal device may use a first access technology to send the access request to the network device on the first resource. The network device receives the access request that may be sent by the terminal device on the first resource by using the first technology. The first resource is a resource that is provided by the network device and that is used to carry a service supported by the first access technology. The first access technology is an access technology corresponding to the first service.

After accessing a network, the terminal device may further communicate with the network device on the first resource. The communication includes signaling interaction and/or data transmission.

For a relationship between an access technology and a corresponding resource in this implementation, refer to a schematic diagram shown in <FIG>. In this implementation of the present disclosure, a network device uses a same resource to support all services that are based on an access technology. In other words, access technologies are in a one-to-one correspondence with resources corresponding to the access technologies. As shown in <FIG>, for example, an access technology <NUM> is corresponding to a resource <NUM>; an access technology <NUM> is corresponding to a resource <NUM>; and an access technology <NUM> is corresponding to a resource <NUM>. A network device broadcasts, on a common broadcast channel, identity information of access technologies <NUM> to <NUM> supported by the network device, and information about resources <NUM> to <NUM> respectively corresponding to the access technologies <NUM> to <NUM>. Therefore, the terminal device may determine a resource of a required service based on a relationship between an access technology and a corresponding resource.

In this implementation of the present disclosure, the network device broadcasts the information about the access technology and the resource information corresponding to the access technology, so that the terminal device can receive a broadcast message, and obtain the information about the access technology and the resource information corresponding to the access technology. The terminal device determines, based on information about an access technology corresponding to a required service, a resource corresponding to the service, and accesses a network by using the resource. In this way, communication is implemented when a plurality of access technologies are used.

<FIG> is a schematic flowchart of a communication method according to another implementation of the present disclosure. The method may be applicable to the communications system in <FIG>. For a relationship between a service and an access technology in this implementation, refer to the foregoing descriptions. A scenario to which implementation of the present disclosure is applicable is: A network device uses different resources to support different services that are based on an access technology.

S510: A terminal device obtains identity information of a first service and information about an access technology corresponding to the first service.

The terminal device may obtain, during service subscription, the identity information of the first service and the information about the access technology corresponding to the first service. The information about the access technology may include an identity of the access technology.

S520: A network device broadcasts information about an access technology and resource information corresponding to a service supported by the access technology.

S530: The terminal device receives the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device. The terminal device matches the identity information of the first service and the information about the access technology corresponding to the first service that are obtained, with the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device, to determine a first resource corresponding to the first service.

Optionally, when an access technology supporting a service required by the terminal device includes at least two access technologies, during service subscription, the terminal device may further obtain priorities of the access technologies corresponding to the service. When determining the first resource, the terminal device determines, based on the identity information of the first service, the information about the access technology corresponding to the first service, the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device, and priority information of the access technologies corresponding to the first service, a resource corresponding to an access technology with a highest priority in the access technologies corresponding to the first service as the first resource.

S540: The terminal device sends an access request to the network device by using the first resource, and the network device receives the access request that is sent by the terminal device on the first resource.

The terminal device may use a first access technology to send the access request to the network device on the first resource, and the network device may receive, on the first resource by using the first technology, the access request sent by the terminal device. The first resource is a resource that is provided by the network device and that is used to carry a service supported by the first access technology. The first access technology is an access technology corresponding to the first service.

After accessing a network, the terminal device may further communicate with the network device on the first resource. The communication includes signaling interaction and/or data transmission. For a relationship between an access technology and a corresponding resource in this implementation, refer to a schematic diagram shown in <FIG>. In this implementation of the present disclosure, the network device uses different resources to support different services that are based on an access technology. The resource in this implementation is a resource corresponding to a service supported by an access technology. As shown in <FIG>, for example, a service <NUM> supported by an access technology <NUM> is corresponding to a resource <NUM>, and a service <NUM> supported by the access technology <NUM> is corresponding to a resource <NUM>. A service <NUM> supported by an access technology <NUM> is corresponding to a resource <NUM>, and a service <NUM> supported by an access technology <NUM> is corresponding to a resource <NUM>. A network device broadcasts, on a common broadcast channel, identity information of access technologies <NUM> to <NUM> supported by the network device, and resource information corresponding to services supported by the access technologies. Therefore, the terminal device may determine, based on information about the access technologies, a correspondence of service identity information and resources corresponding to the services supported by the access technologies, a resource of a required service. In this way, the terminal device accesses a network by using the resource, and communication is implemented when a plurality of access technologies are used.

<FIG> is a schematic flowchart of a communication method according to another implementation of the present disclosure. The method may be applicable to the communications system in <FIG>. For a relationship between a service and an access technology in this implementation, refer to the foregoing descriptions. A scenario to which implementation of the present disclosure is applicable is also: A network device uses different resources to support different services that are based on an access technology.

S720: A network device broadcasts information about an access technology and resource information corresponding to the access technology.

In this step, the network device may broadcast, on a common broadcast channel, the information about the access technology and the resource information corresponding to the access technology. In this implementation of the present disclosure, the network device uses different resources to support different services that are based on an access technology. If an access technology supports a plurality of services, the technology may be corresponding to a plurality of resources. For example, one corresponding resource is allocated for each service supported by the access technology, or one corresponding resource may be allocated for at least two services supported by the access technology. If an access technology is corresponding to a plurality of resources, resource information corresponding to the access technology includes information about the plurality of resources.

S730: The network device broadcasts, on a dedicated resource corresponding to the access technology, identity information of a service carried on the dedicated resource.

S740: The terminal device receives the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device; and the terminal device determines, based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a resource corresponding to the access technology corresponding to the first service; receives, on the resource corresponding to the access technology corresponding to the first service, service identity information broadcast by the network device; and determines, as the first resource, a resource used by the network device to send the identity information of the first service.

Optionally, when an access technology supporting a service required by the terminal device includes at least two access technologies, during service subscription, the terminal device may further obtain priorities of the access technologies corresponding to the first service. When determining the resource corresponding to the access technology corresponding to the first service, the terminal device determines, based on the information about the access technology corresponding to the first service, the priorities of the access technologies corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a resource corresponding to an access technology with a highest priority in the access technologies corresponding to the first service as resource information corresponding to the access technologies corresponding to the first service.

S750: The terminal device sends an access request to the network device by using the first resource, and the network device receives the access request that is sent by the terminal device on the first resource.

The terminal device may use a first access technology to send the access request to the network device on the first resource, and the network device may receive, by using the first access technology, the access request sent by the terminal device on the first resource. The first resource is a resource that is provided by the network device and that is used to carry the first service supported by the first access technology. The first access technology is an access technology corresponding to the first service.

For a relationship between an access technology and a corresponding resource in this implementation, refer to a schematic diagram shown in <FIG>. In this implementation of the present disclosure, the network device uses different resources to support different services that are based on an access technology. As shown in <FIG>, for example, an access technology <NUM> is corresponding to a resource <NUM> and a resource <NUM>; an access technology <NUM> is corresponding to a resource <NUM>; and an access technology <NUM> is corresponding to a resource <NUM>. For example, the access technology <NUM> supports two services, which are respectively corresponding to two resources: the resource <NUM> and the resource <NUM>, and the two resources are used for the services, respectively. The network device broadcasts, on a common broadcast channel, identity information of access technologies <NUM> to <NUM> supported by the network device, and resource information corresponding to the access technologies. Therefore, the terminal device may determine, based on a correspondence of information about the access technologies and resources corresponding to the access technologies, a resource corresponding to an access technology corresponding to a required service. In this way, the terminal device receives, on the resource corresponding to the access technology corresponding to the service, service identity information broadcast by the network device; and matches the received service identity information sent by the network device with identity information of a service required by the terminal device, to perform data communication on a matched network resource. Communication is implemented when a plurality of access technologies are used.

S910: A terminal device obtains identity information of a first service and information about an access technology corresponding to the first service.

The terminal device may use the first access technology to send the access request to the network device on the first resource. The network device performs authentication and service authorization on the terminal device.

S950: The terminal device sends the identity information of the first service to the network device by using the first resource.

The terminal device may send, by using the first access technology, the identity information of the first service to the network device. The first access technology is an access technology corresponding to the first service.

In this implementation of the present disclosure, optionally, after completing the service authorization, the terminal device may add the identity information of the first service to a service authorization completion message that is to be sent to the network device.

S960: The network device receives the identity information of the first service sent by the terminal device. The network device determines information about a second resource based on a correspondence between a service and a resource and the identity information of the first service.

The network device may receive, by using the first access technology, the identity information of the first service sent by the terminal device. The network device may determine the information about the second resource based on a correspondence between a service and a resource, the identity information of the first service, information about an access technology used for sending the access request, and information about the first resource.

The second resource is used to transmit data of the first service.

S970: The network device sends, on the first resource, the information about the second resource to the user equipment.

The first resource is a resource that is provided by the network device and that is used to carry a service supported by the first access technology. The first access technology is an access technology corresponding to the first service.

S980: The user equipment communicates with the network device on the second resource. The user equipment may communicate with the network device on the second resource by using the first technology. The communication includes transmission of data of the first service and of related signaling. The transmission of related signaling includes transmission of a scheduling request related to data transmission and an uplink/downlink transmission resource indication.

For a relationship between an access technology and a corresponding resource in this implementation, refer to a schematic diagram shown in <FIG>. In this implementation of the present disclosure, the network device uses different resources to support different services that are based on an access technology. As shown in <FIG>, for example, an access technology <NUM> is corresponding to a resource <NUM>; an access technology <NUM> is corresponding to a resource <NUM>; and an access technology <NUM> is corresponding to a resource <NUM>. The network device broadcasts, on a common broadcast channel, identity information of access technologies <NUM> to <NUM> supported by the network device, and resource information corresponding to the access technologies. Therefore, the terminal device may determine, based on a correspondence of information about the access technologies and resources corresponding to the access technologies, a resource corresponding to an access technology corresponding to a required service, for example, the resource <NUM>. In this way, the terminal device sends, on the resource <NUM>, the identity information of the first service to the network device. The network device may determine the information about the second resource based on a correspondence between a service and a resource, the identity information of the first service, information about an access technology used for sending the access request, and information about the first resource. That is, the network device determines the second resource from resources <NUM> to <NUM>. On the second resource, the network device and the terminal device perform data communication. In this way, communication is implemented when a plurality of access technologies are used.

Based on a same concept, an implementation of the present disclosure provides a terminal device, configured to implement the method implementation of the present disclosure. For related content, refer to the descriptions of the method, and the content is not repeated herein. As shown in <FIG>,
a terminal device <NUM> includes a receiving unit <NUM>, a processing unit <NUM>, and a sending unit <NUM>. The processing unit may be specifically a processor, the sending unit may be specifically a transmitter, and the receiving unit may be specifically a receiver.

The receiving unit is configured to receive information about an access technology and resource information corresponding to the access technology that are broadcast by the network device. The receiving unit receives, on a common broadcast channel, the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device.

The processing unit is configured to: obtain information about an access technology corresponding to a first service; and determine, based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a first resource corresponding to the first service, where the information about the access technology corresponding to the first service may be obtained by the terminal device during service subscription. The information about the access technology may be stored in a storage unit, and the processing unit obtains the information about the access technology from the storage unit. The information about the access technology may include an identity of the access technology.

The sending unit is configured to send an access request to the network device by using the first resource.

Optionally, when an access technology supporting a service required by the terminal device includes at least two access technologies, during service subscription, the terminal device may further obtain priorities of the access technologies corresponding to the service. Priority information of the access technologies may be stored in the storage unit. The processing unit obtains the priority information from the storage unit. When determining the first resource, the processing unit determines, based on the information about the access technology corresponding to the first service, the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, and priority information of the access technologies corresponding to the first service, a resource corresponding to an access technology with a highest priority in the access technologies corresponding to the first service as the first resource.

Optionally, the resource information corresponding to the access technology includes resource information corresponding to a service supported by the access technology; and the processing unit is further configured to: obtain identity information of the first service; and match the information about the access technology corresponding to the first service and the identity information of the first service with the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device, to determine the first resource. During service subscription, the terminal device may further obtain the identity information of the first service, where the identity information of the first service may be stored in the storage unit. The processing unit obtains the identity information from the storage unit.

Optionally, the processing unit is further configured to: obtain identity information of the first service; and determine, based on the information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a resource corresponding to the access technology corresponding to the first service. During service subscription, the terminal device may further obtain the identity information of the first service, where the identity information of the first service may be stored in the storage unit. The processing unit obtains priority information from the storage unit from the storage unit. The receiving unit is further configured to receive, on the determined resource corresponding to the access technology corresponding to the first service, service identity information broadcast by the network device, and the processing unit is configured to determine a resource used by the network device to send the identity information of the first service as the first resource.

Optionally, the sending unit is further configured to send identity information of the first service to the network device by using the first resource, and the receiving unit is further configured to receive, on the first resource, information that is about a second resource and is sent by the network device.

Based on a same concept, an implementation of the present disclosure provides a network device, configured to implement the method implementation of the present disclosure. For related content, refer to the descriptions of the method, and the content is not repeated herein. The network device may communicate with the terminal device provided in this implementation of the present disclosure. As shown in <FIG>,
a network device <NUM> includes a receiving unit <NUM> and a sending unit <NUM>. The sending unit may be specifically a transmitter, and the receiving unit may be specifically a receiver.

The sending unit is configured to broadcast information about an access technology and resource information corresponding to the access technology. The sending unit may broadcast, by using a common broadcast channel, the information about the access technology and the resource information corresponding to the access technology.

The receiving unit is configured to receive, on a first resource, an access request sent by a terminal device, where the first resource is a resource determined by the terminal device based on obtained information about an access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device.

Optionally, the resource information corresponding to the access technology includes resource information corresponding to a service supported by the access technology, where the first resource is a resource determined by the terminal device by matching the information about the access technology corresponding to the first service and identity information of the first service with the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device.

Optionally, the sending unit is further configured to broadcast, on a dedicated resource corresponding to the access technology, identity information of a service carried on the dedicated resource, and the first resource is a resource for sending identity information of the first service.

Optionally, the receiving unit is further configured to receive identity information of the first service sent by the terminal device, and the sending unit is further configured to send information about a second resource to the terminal device, where the second resource is used for communication between the network device and the terminal device.

Optionally, the network device further includes a processing unit. The processing unit may be specifically a processor.

The processing unit is configured to determine, based on a correspondence between a service and a resource, and identity information of the first service, the second resource.

Based on a same technical concept, an implementation of the present disclosure provides a terminal device <NUM>, configured to implement the method in this implementation of the present disclosure. For related content, refer to the descriptions of the method, and the content is not repeated herein. Referring to <FIG>, the device <NUM> includes a bus <NUM>, and a processor <NUM>, a memory <NUM>, and a transceiver <NUM> that are separately connected to the bus <NUM>.

The transceiver <NUM> is configured to communicate with a network device.

The memory <NUM> is configured to store an instruction.

The processor <NUM> is configured to execute the instruction stored in the memory <NUM>, so as to perform the following steps when executing the instruction.

The processor <NUM> obtains information about an access technology corresponding to a first service; receives, by using the transceiver <NUM>, information about an access technology and resource information corresponding to the access technology that are broadcast by the network device; determines, based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a first resource corresponding to the first service; and instructs the transceiver <NUM> to send an access request to the network device by using the first resource.

The transceiver may be implemented by using two network elements: a transmitter and a receiver. The transmitter is configured to perform steps related to sending. The receiver is configured to perform steps related to receiving.

Optionally, in this implementation of the present disclosure, the resource information corresponding to the access technology includes resource information corresponding to a service supported by the access technology. The processor <NUM> obtains identity information of the first service; and matches the information about the access technology corresponding to the first service and the identity information of the first service with the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device, to determine the first resource.

Optionally, in this implementation of the present disclosure, the processor <NUM> obtains identity information of the first service. The processor <NUM> determines, based on the information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a resource corresponding to the access technology corresponding to the first service; instructs the transceiver <NUM> to receive, on the determined resource corresponding to the access technology corresponding to the first service, service identity information broadcast by the network device; and determines, as the first resource, a resource used by the network device to send the identity information of the first service.

Optionally, in this implementation of the present disclosure, the processor <NUM> instructs the transceiver <NUM> to use the first access technology to communicate with the network device on the first resource.

Optionally, in this implementation of the present disclosure, the processor <NUM> instructs the transceiver <NUM> to send the identity information of the first service to the network device by using the first resource; the processor <NUM> instructs the transceiver <NUM> to receive, on the first resource, information that is about a second resource and is sent by the network device; and the processor <NUM> instructs the transceiver <NUM> to communicate with the network device on the second resource.

Optionally, in this implementation of the present disclosure, the second resource is determined by the network device based on the identity information of the first service and a correspondence between a service and a resource.

Based on a same technical concept, an implementation of the present disclosure provides a network device <NUM>, configured to implement the method in this implementation of the present disclosure. For related content, refer to the descriptions of the method, and the content is not repeated herein. Referring to <FIG>, the device <NUM> includes a bus <NUM>, and a processor <NUM>, a memory <NUM>, and a transceiver <NUM> that are separately connected to the bus <NUM>.

The processor <NUM> broadcasts information about an access technology and resource information corresponding to the access technology; and receives, on a first resource, an access request sent by a terminal device, where the first resource is a resource determined by the terminal device based on obtained information about an access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device.

Optionally, in this implementation of the present disclosure, the resource information corresponding to the access technology includes resource information corresponding to a service supported by the access technology, where the first resource is a resource determined by the terminal device by matching the information about the access technology corresponding to the first service and identity information of the first service with the information about the access technology and the resource information corresponding to the service supported by the access technology that are broadcast by the network device.

Optionally, in this implementation of the present disclosure, the processor <NUM> instructs the transceiver <NUM> to separately broadcast, on a dedicated resource corresponding to an access technology, identity information of a service carried on the dedicated resource, where the first resource is a resource for sending the identity information of the first service.

Optionally, in this implementation of the present disclosure, the processor <NUM> instructs the transceiver <NUM> to communicate with the terminal device on the first resource.

Optionally, in this implementation of the present disclosure, the processor <NUM> instructs the transceiver <NUM> to receive the identity information of the first service sent by the terminal device; the processor <NUM> instructs the transceiver <NUM> to send information about a second resource to the terminal device; and the processor <NUM> instructs the transceiver <NUM> to communicate with the terminal device on the second resource.

It should be noted that the foregoing processor may be a processing unit, or may be a catch-all term of a plurality of processing units. For example, the processor may be a central processing unit (Central Processing Unit, CPU), may be an application-specific integrated circuit (Application Specific Integrated Circuit, ASIC for short), or may be configured as one or more integrated circuits for implementing this implementation of the present disclosure, for example, one or more microprocessors (digital signal processor, DSP), or one or more field programmable gate arrays (Field Programmable Gate Array, FPGA for short).

The memory may be a storage apparatus or may be a catch-all term of a plurality of storage elements, and is configured to store executable program code or a parameter, data, and the like that are required for running a residential access network device or a terminal. The memory may include a random access memory (random access memory, RAM for short) or may include a non-volatile memory (non-volatile memory, NVM for short), such as a magnetic disk storage or a flash memory (Flash).

The bus may be an industry standard architecture (Industry Standard Architecture, ISA for short) bus, a peripheral component interconnect (Peripheral Component, PCI for short) bus or an extended industry standard architecture (Extended Industry Standard Architecture, EISA for short) bus, and the like. The bus may be divided into an address bus, a data bus, a control bus, or the like. For ease of denotation, only one line is used in the figure for representing the bus. However, this does not mean that there is only one bus or a bus of one type.

A person skilled in the art should understand that the implementations of the present disclosure may be provided as a method, a system, or a computer program product. Therefore, the present disclosure may use a form of hardware-only implementations, software-only implementations, or implementations with a combination of software and hardware. In addition, the present disclosure may use a form of a computer program product that is implemented on one or more computer-usable storage media (including but not limited to a disk memory, a CD-ROM, an optical memory, and the like) that include computer-usable program code.

The present disclosure is described with reference to the flowcharts and/or block diagrams of the method, the device (system), and the computer program product according to the implementations of the present disclosure. It should be understood that computer program instructions may be used to implement each process and/or each block in the flowcharts and/or the block diagrams, and a combination of a process and/or a block in the flowcharts and/or the block diagrams. These computer program instructions may be provided for a general-purpose computer, a dedicated computer, an embedded processor, or a processor of any other programmable data processing device to generate a machine, so that the instructions executed by a computer or a processor of any other programmable data processing device generate an apparatus configured to implement a specific function in one or more processes in the flowcharts and/or in one or more blocks in the block diagrams.

These computer program instructions may also be stored in a computer-readable memory that can instruct the computer or any other programmable data processing device to work in a specific manner, so that the instructions stored in the computer-readable memory generate an artifact that includes an instruction apparatus. The instruction apparatus implements a specified function in one or more processes in the flowcharts and/or in one or more blocks in the block diagrams.

Claim 1:
A communication method (<NUM>), comprising:
obtaining (<NUM>), by a terminal device, information about an access technology corresponding to a first service;
receiving (<NUM>), by the terminal device, information about an access technology and resource information corresponding to the access technology that are broadcast by a network device;
determining (<NUM>), by the terminal device, based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a first resource corresponding to the first service; and
sending (<NUM>), by the terminal device, an access request to the network device by using the first resource;
wherein the resource information corresponding to the access technology comprises the resource information corresponding to a service supported by the access technology; and the method further comprises: obtaining, by the terminal device, identity information of the first service; and
wherein:
the determining, by the terminal device based on the obtained information about the access technology corresponding to the first service, and the information about the access technology and the resource information corresponding to the access technology that are broadcast by the network device, a first resource corresponding to the first service, comprises:
matching, by the terminal device, the information about the access technology corresponding to the first service and the identity information of the first service with the information about the access technology and the resource information, that are broadcast by the network device, to determine the first resource.