KR20140037683A - Coexistence problem modeling by cournot copetition in overlapped wban environment - Google Patents

Abstract

The present invention relates to a method of allocating a resource in an overlapped wireless body area communication using a Cournot competition, and more particularly to a method of allocating a resource of a transmission section in which a high reliability in medical aspect and forwarding of body information can be secured by allocating a non-competitive transmission section by using a Cournot competition in an overlapped wireless body area communication (WBAN) environment and a balance can be secured by avoiding an interference between non-competitive transmission sections even in an overlapped environment. The present invention provides a method of allocating a transmission section of an overlapped wireless body area communication using a Cournot competition wherein, when two wireless body area communications (WBANs) overlap each other, a non-competitive transmission section of a wireless body area communication is allocated by using a Cournot competition and a transmission section is allocated in consideration of an amount of transmissions, a delay time, and a traffic priority in the wireless body area communication.

Description

Resource Allocation Method in Overlapping Wireless Body Area Communication Using Cournot Competition {Coexistence problem modeling by cournot copetition in overlapped WBAN Environment}

The present invention relates to a method for allocating resources in superimposed wireless physical area communication using Cournot competition, and more particularly, by allocating a non-competitive transmission interval using Courno competition in a superimposed wireless physical area communication (WBAN) environment. The present invention relates to a resource allocation method that guarantees high reliability of medical and physical information transmission and ensures efficient and fairness by avoiding interference of non-competitive transmission intervals even in overlapping environments.

In recent years, the increase in life expectancy has accelerated the entry of an aging society, and user needs such as personalized health services have brought services such as u-healthcare and u-lifecare. The Wireless Body Area Network (WBAN), which is currently being standardized in IEEE 802.15 TG6, is a technology that supports this, and refers to a communication technology consisting of an area within 3 meters of the human body.

WBAN includes the transmission of entertainment data, such as multimedia games and streaming services, as well as the transmission of user's physical and medical data. The allocation of transmission intervals of the devices in the WBAN data link layer is divided into non-competition intervals for ensuring reliable data transmission of physical and medical data and competition intervals for multimedia application services such as entertainment.

However, in areas with high density of WBAN users, such as hospitals and elderly welfare facilities, collisions occur due to overlapping transmission intervals between WBANs, which leads to transmission failure of physical and medical data. In order to solve this problem, the existing WBAN users are used to reduce the temporary traffic or control the traffic with priority in case of interference between transmission zones due to overlap.

However, since only the WBAN users with high traffic priority unilaterally occupy the transmission section, there is a problem of unfairness. In addition, it does not consider the quality of service (QoS) parameters such as delay time and traffic priority in each WBAN, so it does not satisfy the transmission delay time of body and medical data, and satisfies the transmission requirements of the WBAN due to the transmission interval. There was a problem that can not be.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art. That is, an object of the present invention is to allocate a non-competitive transmission interval using Cournot competition in a superimposed wireless body area communication (WBAN) environment, thereby ensuring high reliability of medical and physical information transmission, and non-competitive transmission even in a superimposed environment. The present invention provides a resource allocation method for a transmission section that avoids section interference and guarantees efficiency and fairness.

As the technical idea for achieving the above object, the present invention, when two wireless body area communication (WBAN) overlap, the non-competitive transmission interval of the wireless body area communication using the Courno competition, but the wireless body area The present invention provides a method for allocating transmission intervals in overlapped wireless body area communication using Cournot competition, wherein transmission intervals are allocated in consideration of transmission amount, delay time, and traffic priority in communication.

In case of applying the resource allocation method in the overlapped wireless physical area communication using the Cournot competition according to the present invention, it is possible to ensure high reliability of medical and physical information transmission and to avoid interference of the non-competitive transmission interval in the overlapped environment. Enable resource allocation of transmission interval.

In addition, by applying the game-theoretic approach to the resource allocation method of wireless physical area communication, the optimal solution for problem solving can be obtained, and it can be extended even in an environment where two or more wireless body area communication users are confined while guaranteeing QoS. Do.

1 is a diagram illustrating an example in which two WBAN users are allocated their own transmission intervals in a non-competitive transmission interval according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a relationship between a useful function defined using Cournot competition modeling, latency, and transmission amount through mathematical analysis according to an embodiment of the present invention. FIG.
3 is a diagram illustrating an example in which a transmission section is allocated to a superior participant in a Cournot competition according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an example in which two WBAN users are allocated their own transmission intervals in a non-competitive transmission interval according to an embodiment of the present invention.

The present invention relates to a method for allocating resources of a non-competitive transmission interval using Cournot competition in a superimposed WBAN environment. Cournot competition is an oligopoly model advocated by economist A. Cournot that assumes that the market price of a product is determined by the sum of the two firms, with two producers dominating the market. It is the theory that two producers decide the quantity of output to get maximum benefit at the same time.

The present invention provides a method of allocating resources of a non-competitive transmission interval using Courno competition, and guaranteeing a quality of service (QoS) in consideration of transmission amount, delay time, and traffic priority. To this end, in the present invention, three parameters for guaranteeing QoS, that is, averaging transmission amount, delay time, and traffic priority, are used as values between 0 and 1, and the transmission amount is θ, the delay time is △, and the traffic priority is It is written as p. In this case, L ⁱ means the order and the total number of transmission intervals allocated in the non-competitive transmission interval.

As shown in FIG. 1, in the MAC structure of the IEEE 802.15.6 WBAN, when allocating resources of a non-competitive transmission interval using Cournot competition to two WBAN users in consideration of transmission amount, delay time, and traffic priority, a coordinator L ¹ in the non-competitive transmission interval of WBAN 1 received from ¹ is 4, and L 2 in the non-competitive transmission interval of WBAN 2 received from Coordinator ² is 3. In addition, each WBAN transmits while rotating in its own order within each allocated transmission interval in the non-competitive transmission interval. This is to prevent the case where one single WBAN communication is continuously allocated a transmission interval, the transmission delay time of the other WBAN communication becomes long, and thus the transmission delay requirement of the WBAN communication cannot be satisfied.

The transmission amount represents a length of a transmission interval allocated to a single WBAN in an uncompetitive transmission interval having one period. This is expressed as an average value between 0 and 1, where 0 represents no transmission interval at all, and 1 represents the case where a single WBAN is allocated to use a non-competitive transmission interval. That is, 0 means that there is no data to transmit within the entire non-competitive transmission interval, and 1 means that all the non-competitive transmission intervals are allocated and transmitted. Such a transmission amount is calculated through Equation 1 below.

The delay time represents the transmission delay time of a single traffic in the non-competitive transmission interval when the transmission intervals are allocated in sequence. As discussed earlier in the requirements for WBAN communications, traffic carrying physical and medical information is sensitive to latency. Therefore, it should be modeled by considering the delay time of traffic. The delay time is also expressed as an average value between 0 and 1, where 0 means traffic delivered immediately at the beginning of the non-competitive transmission section without delay, and 1 means that transmission starts at the end of the non-competition transmission section. It means that it cannot transmit within the interval. This delay time is calculated through Equation 2 below.

The WBAN should allocate a transmission interval considering the priority of traffic. This is to allocate more transmission intervals to the high priority WBAN within the limited allocation range of the non-competitive transmission interval. The average priority of the traffic in the non-competitive transmission section is calculated through Equation 3 below.

In addition, in the present invention, the useful function representing the expected profit obtained by the player i of the game is calculated as shown in Equation 4 below. This is a result calculated using the Cournot competition modeling, and the expected profit obtained can be calculated as the product of the delay and the gain obtained through the transmission amount. The average traffic of a single WBAN is considered as a parameter that yields the expected benefits of throughput and latency. The useful functions calculated by the amount of transmission and the delay are parameters of demand value required by a single WBAN, a requirement value that can satisfy the minimum requirements in a single WBAN, and an average priority of traffic transmitted in a non-competitive transmission interval in a single WBAN. Is calculated.

As described above, the relationship between the useful function defined by the Cournot competition modeling, the delay time, and the transmission amount is illustrated as shown in FIG. 2 through mathematical analysis. As shown in FIG. 2, it can be seen that the higher the required transmission amount, the higher the expected profit, and the shorter the delay time, the higher the expected profit. In addition, as the delay time is shorter, the transmission period is occupied first and then transmitted.

Therefore, the more occupied the transmission section, the more satisfactory the result is to meet the requirements, and the more profit can be obtained. As described above, the closer the transmission amount is to 1, the more sections occupy the non-competitive transmission intervals. This means that a single WBAN communication participating in a game allocated a transmission interval in the overlapped WBANs is allocated more transmission intervals than other WBANs. Thus, the more allocated transmission intervals, the higher the gain.

3 is a diagram illustrating an example in which a transmission section is allocated to a superior participant in a Cournot competition according to an embodiment of the present invention.

A superior participant is a participant who is always assigned a superior position in competition with other participants in limited resource allocation. In other words, in a nested WBAN environment, if a player with a limited transmission interval is considered a player with a higher priority than other players, the expected benefit from the superior player with a higher priority is more. As shown in FIG. 3, it can be seen that the two WBAN communications are increased while satisfying each other's expected profits until the sum of the expected profits obtained in the overlapping environment becomes one. However, from the moment the expected profit of two overlapping WBAN communications reaches 1, we can see that the expected profit of WBAN 1 decreases for the superior participants of WBAN 2. This is a result of the nature of the reasonable Cournot competition model, which gives more expected benefits to superior users.

As described above, when applying the resource allocation method in the overlapped wireless physical area communication using the Cournot competition according to the present invention, it is possible to ensure the reliability of information delivery of high priority such as medical and physical information In addition, even in the overlapped environment, the resource allocation of the effective transmission interval can be avoided by avoiding interference of the non-competitive transmission interval.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. It will be obvious to those of ordinary skill in the art.

Claims (6)

In the method for allocating a transmission interval,
In the case where two WBANs overlap, a non-competitive transmission section of the wireless body area communication is allocated by using the Courno competition. Assignment method.
The method of claim 1,
The transmission interval allocation method,
Transmission interval allocation method according to the overlapping wireless physical area communication using the Cournot competition, characterized in that the allocation of the transmission interval in consideration of the transmission amount, delay time and traffic priority in the radio body area communication.
3. The method of claim 2,
The amount of transmission,
A method of allocating transmission intervals in superimposed wireless physical area communication using Cournot competition, which is calculated using Equation 1 below.
[Equation 1]

here,
L _i : Sequence and total number of transmission sections allocated within the non-competitive transmission section
i: Participant in the competition.
3. The method of claim 2,
The delay time is,
A method of allocating transmission intervals in superimposed wireless physical area communication using Cournot competition, which is calculated using Equation 2 below.
&Quot; (2) "

here,
L _i : Sequence and total number of transmission sections allocated within the non-competitive transmission section
i: Participant in the competition.
3. The method of claim 2,
The traffic priority is,
Transmission interval allocation method in superimposed wireless physical area communication using Cournot competition, characterized in that it is calculated using Equation 3 below.
&Quot; (3) "

here,
L _i : Sequence and total number of transmission sections allocated within the non-competitive transmission section
i: Participant in the competition.
The method of claim 1,
Expected profits obtained by allocating the non-competitive transmission interval of wireless physical area communication using the Cournot competition,
Transmission interval allocation method in superimposed wireless physical area communication using Cournot competition, characterized in that it is calculated using Equation 4 below.
&Quot; (4) "

here,
θ: transmission amount,
△: delay time,
ρ: traffic priority,
θ _dem : demand value required by a single WBAN,
θ _req : A requirement value that can satisfy the minimum requirements in a single WBAN.

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