CN109842963B - Automatic detection method and device for communication protocol - Google Patents

Abstract

The invention discloses an automatic detection method of a communication protocol, which comprises the following steps: monitoring, by the mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal; receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of the first level DRX period; continuously monitoring, by the mobile terminal, whether there is any more downlink data to transmit to the mobile terminal until receiving the DRX indicator; activating, by the mobile terminal, a second level DRX period in response to receiving the DRX indicator; monitoring, by the mobile terminal, during a first sub-frame of each second level DRX period, whether there is downlink data transmitted to the mobile terminal while the second level DRX period remains active; receiving downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period.

Description

Automatic detection method and device for communication protocol

Technical Field

The present invention relates to the field of wireless communication technologies, and in particular, to an automatic detection method and apparatus for a communication protocol.

Background

The impact of wireless technology on people is undisputable. Today, approximately 15 million people are new wireless users each day, and the number of wireless users worldwide has now exceeded 2 billion. These include university professors, warehouse managers, nurses, store managers, office managers, and truck drivers. Their way of using wireless technology is constantly updating as well as their own work. Since the seventies of the twentieth century, research on wireless networks was started. In the eighties of the whole twentieth century, along with the rapid development of the ethernet local area network, the wireless network with the advantages of no wire arrangement, strong flexibility and the like is short of the 'wired' which is a supplement of the wired ethernet, and the wireless network wins the acceptance of a specific market, but because the wireless network at that time is a supplement of the wired ethernet and follows the IEEE802.3 standard, the wireless network product directly constructed on the 802.3 has the defects of easy interference of other microwave noises, unstable performance, low transmission rate, difficult upgrading and the like, products of different manufacturers are incompatible with each other, and all the defects limit the further application of the wireless network. Thus, the agenda has been introduced by establishing a standard that facilitates the development of the wireless network itself. By 6 months 1997, IEEE has eventually passed the 802.11 standard. The 802.11 standard is a wlan standard established by IEEE, and mainly defines a physical layer (PH) and a Medium Access Control (MAC) layer of a network, wherein the definition of the MAC layer is a key point. The products of various vendors can interoperate on the same physical layer, and the logical link control layer (LLC) is consistent, i.e., transparent to network applications below the MAC layer. This makes the two main uses of wireless network- "(in the same network segment) multipoint access" and "multi-network segment interconnection" easy to implement with high quality and low cost. More importantly for applications, a certain degree of "compatibility" means that competition begins to occur; in the IT industry, "compatible" means that the "ten-speed era" is coming. Below the MAC layer, 802.11 specifies three transmission and reception techniques: spread spectrum (spread spectrum) techniques; infrared (infra) technology; narrow band (narrow band) technique. The spread spectrum is divided into Direct Sequence (DS) spread spectrum (abbreviated as direct spreading) and Frequency Hopping (FH) spread spectrum. Direct sequence spread spectrum techniques, in turn, typically incorporate code division multiple access CDMA techniques. In light of the forecast, wireless networks will have grown significantly in the next few years, and the sales of U.S. wireless local area networks alone will increase from $ 2.1 million in 1997 to $ 8 million in 2001.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The present invention is directed to a method and an apparatus for automatic detection of a communication protocol, which can overcome the shortcomings of the prior art.

In order to achieve the above object, the present invention provides an automatic detection method for communication protocols, comprising the following steps:

monitoring, by the mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of the first hierarchical DRX period;

continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the DRX indicator is received;

activating, by the mobile terminal, a second hierarchical DRX period in response to receiving the DRX indicator, wherein a time length of the second hierarchical DRX period is shorter than a time length of the first hierarchical DRX period;

monitoring, by the mobile terminal, during a first sub-frame of each second level DRX period, whether there is downlink data transmitted to the mobile terminal, while the second level DRX periods remain active;

receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the mobile terminal no longer receives the downlink data for a predetermined time;

decoding, by the mobile terminal, the downlink data based on the different communication protocols; and

the communication protocol is automatically detected by the mobile terminal based on the communication protocol that enables successful decoding of the downlink data.

In a preferred embodiment, the method for automatically detecting a communication protocol further includes the following steps: if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period, the mobile terminal enters a sleep state until the first subframe of the next first level DRX period is known.

In a preferred embodiment, the method for automatically detecting a communication protocol further includes the following steps:

if the mobile terminal does not receive downlink data for a predetermined time, the mobile terminal enters a sleep state until a first subframe of a next first level DRX period or a first subframe of a next second level DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

In a preferred embodiment, the second level DRX period remains activated until the time corresponding to the first subframe of the next first level DRX period.

In a preferred embodiment, the method for automatically detecting a communication protocol further includes the following steps:

if there is no downlink data transmitted to the mobile terminal during the first sub-frame of each second hierarchical DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next first hierarchical DRX period or the first sub-frame of the next second hierarchical DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

The invention also provides an automatic detection device of the communication protocol, which comprises:

means for monitoring, by the mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

means for receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of the first level DRX period;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to transmit to the mobile terminal until receiving the DRX indicator;

means for activating, by the mobile terminal, a second level DRX period in response to receiving the DRX indicator, wherein a length of time of the second level DRX period is shorter than a length of time of the first level DRX period;

means for monitoring, by the mobile terminal, during a first subframe of each second level DRX period, whether there is downlink data transmitted to the mobile terminal while the second level DRX period remains active;

means for receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to transmit to the mobile terminal until the mobile terminal no longer receives the downlink data for a predetermined time;

means for decoding, by the mobile terminal, downlink data based on different communication protocols; and

means for automatically detecting, by the mobile terminal, a communication protocol based on the communication protocol that enables successful decoding of the downlink data.

In a preferred embodiment, the method for automatically detecting a communication protocol includes:

means for entering a sleep state until a first subframe of a next first level DRX period is known if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period.

In a preferred embodiment, the communication protocol auto-detection device further includes:

means for entering a sleep state until a first subframe of a next first level DRX period or a first subframe of a next second level DRX period if the mobile terminal no longer receives downlink data for a predetermined time;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

In a preferred embodiment, the second level DRX period remains activated until a time corresponding to the first subframe of the next first level DRX period.

In a preferred embodiment, the communication protocol auto-detection device further includes:

means for entering a sleep state until a first subframe of a next first level DRX period or a first subframe of a next second level DRX period if there is no downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

Compared with the prior art, the communication protocol automatic detection method and the device have the following advantages: the invention provides an automatic detection method of a communication protocol, which considers the problem of electric quantity loss of a mobile terminal battery and provides a method capable of adaptively adjusting a DRX period.

Drawings

Fig. 1 is a flowchart of an auto-detection method for a communication protocol according to an embodiment of the invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a flowchart of an auto-detection method for a communication protocol according to an embodiment of the invention. As shown in the figure, the automatic detection method of the communication protocol of the present invention includes the following steps:

step 101: monitoring, by the mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

step 102: receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of the first level DRX period;

step 103: continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the DRX indicator is received;

step 104: activating, by the mobile terminal, a second hierarchical DRX period in response to receiving the DRX indicator, wherein a time length of the second hierarchical DRX period is shorter than a time length of the first hierarchical DRX period;

step 105: monitoring, by the mobile terminal, during a first sub-frame of each second level DRX period, whether there is downlink data transmitted to the mobile terminal while the second level DRX period remains active;

step 106: receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

step 107: continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the mobile terminal no longer receives the downlink data for a predetermined time;

step 108: decoding, by the mobile terminal, the downlink data based on the different communication protocols; and

step 109: the communication protocol is automatically detected by the mobile terminal based on the communication protocol that enables successful decoding of the downlink data.

In a preferred embodiment, the method for automatically detecting a communication protocol further includes the following steps: if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period, the mobile terminal enters a sleep state until the first subframe of the next first level DRX period is known.

In a preferred embodiment, the method for automatically detecting a communication protocol further comprises the following steps: if the mobile terminal does not receive downlink data any more within a predetermined time, the mobile terminal enters a sleep state until a first sub-frame of a next first hierarchical DRX period or a first sub-frame of a next second hierarchical DRX period; and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period; and if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next second level DRX period.

In a preferred embodiment, the second level DRX period remains activated until a time corresponding to the first subframe of the next first level DRX period.

In a preferred embodiment, the method for automatically detecting a communication protocol further includes the following steps: if there is no downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period, the mobile terminal enters a sleep state until the first subframe of the next first level DRX period or the first subframe of the next second level DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period; if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

The invention also provides an automatic detection device of the communication protocol, which comprises:

means for monitoring, by the mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

means for receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of the first level DRX period;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the DRX indicator is received;

means for activating, by the mobile terminal, a second level DRX period in response to receiving the DRX indicator, wherein a length of time of the second level DRX period is shorter than a length of time of the first level DRX period;

means for monitoring, by the mobile terminal, during a first subframe of each second level DRX period, whether there is downlink data transmitted to the mobile terminal while the second level DRX period remains active;

means for receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to transmit to the mobile terminal until the mobile terminal no longer receives the downlink data for a predetermined time;

means for decoding, by the mobile terminal, downlink data based on different communication protocols; and

means for automatically detecting, by the mobile terminal, a communication protocol based on the communication protocol that enables successful decoding of the downlink data.

In a preferred embodiment, the communication protocol auto-detection device further comprises: means for entering a sleep state until a first subframe of a next first level DRX period is known if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period.

In a preferred embodiment, the communication protocol auto-detection device further includes: means for entering a sleep state until a first sub-frame of a next first level DRX period or a first sub-frame of a next second level DRX period if the mobile terminal no longer receives downlink data for a predetermined time;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

In a preferred embodiment, the second level DRX period remains activated until a time corresponding to the first subframe of the next first level DRX period.

In a preferred embodiment, the communication protocol auto-detection device comprises: means for entering a sleep state until a first subframe of a next first level DRX period or a first subframe of a next second level DRX period if there is no downlink data transmitted to the mobile terminal during the first subframe of each second level DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters the sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing description of specific exemplary embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (2)

1. An automatic detection method for communication protocol is characterized in that:

the communication protocol automatic detection method comprises the following steps:

monitoring, by a mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of a first level DRX period;

continuously monitoring, by the mobile terminal, whether there is further downlink data to send to the mobile terminal until a DRX indicator is received;

activating, by the mobile terminal, a second level DRX period in response to receiving the DRX indicator, wherein a time length of the second level DRX period is shorter than a time length of the first level DRX period;

monitoring, by the mobile terminal, during a first sub-frame of each of the second hierarchical DRX periods, whether there is downlink data transmitted to the mobile terminal, while the second hierarchical DRX period remains active;

receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each of the second level DRX periods;

continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the mobile terminal no longer receives downlink data for a predetermined time;

decoding, by the mobile terminal, the downlink data based on a different communication protocol; and

automatically detecting, by the mobile terminal, the communication protocol based on the communication protocol that enables successful decoding of the downlink data,

if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period, the mobile terminal enters a sleep state until a next first subframe of the first level DRX period,

entering a sleep state until a first sub-frame of a next first level DRX period or a first sub-frame of a next second level DRX period if the mobile terminal no longer receives downlink data for a predetermined time;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period,

wherein the content of the first and second substances,

the second level DRX period being kept activated until a time corresponding to a first subframe of the next first level DRX period,

if there is no downlink data transmitted to the mobile terminal during the first subframe of each of the second hierarchical DRX periods, the mobile terminal entering a sleep state until the first subframe of the next first hierarchical DRX period or the first subframe of the next second hierarchical DRX period;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

2. An automatic communication protocol detection device, comprising:

the communication protocol automatic detection device comprises:

means for monitoring, by a mobile terminal, during a first subframe of each first level Discontinuous Reception (DRX) period, whether there is downlink data transmitted to the mobile terminal;

means for receiving, by a mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during a first subframe of a first level DRX period;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until a DRX indicator is received;

means for activating, by the mobile terminal, a second level DRX period in response to receiving the DRX indicator, wherein a time length of the second level DRX period is shorter than a time length of the first level DRX period;

means for monitoring, by the mobile terminal, during a first sub-frame of each of the second hierarchical DRX periods, whether there is downlink data transmitted to the mobile terminal while the second hierarchical DRX period remains active;

means for receiving, by the mobile terminal, downlink data if there is downlink data transmitted to the mobile terminal during the first subframe of each of the second hierarchical DRX periods;

means for continuously monitoring, by the mobile terminal, whether there is any more downlink data to send to the mobile terminal until the mobile terminal no longer receives downlink data for a predetermined time;

means for decoding, by the mobile terminal, the downlink data based on a different communication protocol; and

means for automatically detecting, by the mobile terminal, a communication protocol based on the communication protocol that enables successful decoding of the downlink data,

means for entering a sleep state until a first subframe of a next first level DRX period if there is no downlink data transmitted to the mobile terminal during the first subframe of the first level DRX period,

means for entering a sleep state until a first subframe of a next first level DRX period or a first subframe of a next second level DRX period if the mobile terminal no longer receives downlink data for a predetermined time;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period,

wherein the content of the first and second substances,

the second hierarchical DRX period is kept activated until a time corresponding to a first subframe of the next first hierarchical DRX period,

means for entering a sleep state until a first subframe of the next first level DRX period or a first subframe of the next second level DRX period if there is no downlink data transmitted to the mobile terminal during the first subframe of each of the second level DRX periods;

and wherein if the first sub-frame of the next first level DRX period precedes in time the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next first level DRX period;

if the first sub-frame of the next first level DRX period is later in time than the first sub-frame of the next second level DRX period, the mobile terminal enters a sleep state until the first sub-frame of the next second level DRX period.

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