CN102033535A - Time delay compensation method with double-control function between transmitter (controller) and actuator - Google Patents

Abstract

The invention provides a time delay compensation method with a double-control function between a transmitter (controller) and an actuator, belonging to the interdisciplinary field between network communication technology and control technology. The invention replaces the network time delay compensation model between the transmitter (controller) node and the actuator node with the network data transmission process between the true transmitter (controller) node and the actuator node, thereby avoiding the measurement, estimation or identification of the network data transmission time delay between nodes and ignoring the requirement for node clock signal synchronization. When the controlled object preestimates a deviation between the model parameter and the true model parameter, a second controller can enhance the robustness and antijamming capacity of the system. The method can be used for reducing the influence of network time delay on the system stability and improving the quality of the system control performance. The invention is suitable for network control system time delay compensation and control when the mathematical model of the controlled object is given or not completely given and the network only exists between the transmitter (controller) node and the actuator node.

Description

Become the delay compensation method that send the two control functions of band between (control) device and actuator

Technical field

The present invention relates to network and exist only in the network delay compensation method that becomes the two control functions of sending between (control) device and the actuator node of band, belong to the network control system technical field.

Background technology

The close-loop feedback control system that constitutes based on the real-time Communication for Power network be called network control system (Networked control systems NCS), is applicable to network control system typical structure block diagram of the present invention as shown in Figure 1.

Network control system has demonstrated fully control system to be developed to networked, integrated, distribution, the intelligentized direction of node, realized that Internet resources are shared, and increased the flexibility and the reliability of system. still, because the network bandwidth is limited, the transmission of information can produce network delay inevitably, the existence of time delay makes poor system performance, when serious even have influence on the stability of system. simultaneously, because the randomness and the uncertainty of network delay make the analysis of network control system and design become difficult in the extreme.

Exist only in to become at as shown in Figure 2 network and send (control) device and the internodal network control system of actuator, it imports R (s) and closed loop transfer function, of exporting between the Y (s) is

$\frac{Y\left(s\right)}{R\left(s\right)}=\frac{C_1\left(s\right)e^{-\mathrm{\τs}}G\left(s\right)}{1+C_1\left(s\right)e^{-\mathrm{\τs}}G\left(s\right)}---\left(1\right)$

In the formula: C ₁(s) be controller; G (s) is a controlled device; τ represents network delay that network data is produced when change send (control) device node to be transferred to the actuator node.

Owing to there is the exponential term e of network delay τ in the denominator of the closed loop transfer function, shown in the equation (1) ^{-τ s}, the existence of time delay will worsen the control performance quality of system, even cause system's loss of stability, when serious system be broken down.

Reduce time delay to the sex key of system stability, just be to realize change is sent the exponential term e of the network delay τ between (control) device node and the actuator node ^{-τ s}From the denominator of equation (1), remove, promptly realize not comprising in the closed loop secular equation exponential term of network delay, yet and then realization is to the compensating action of network delay., realize compensation to network delay, at first must know the size of network delay. at present, usually the method that adopts is by the measurement to network delay τ both at home and abroad, come the influence of delay compensation to system stability. still, owing to need satisfy the synchronous requirement of node clock signal to the accurate measurement of network delay, if adopt hardware to realize that node clock signal is synchronous fully, then need bigger economy input; If adopt software position signal, when then between node, transmitting, may meet with the influence of network delay owing to correction signal, be difficult to realize that nodal clock is synchronous fully; If adopt size to network delay is estimated, identification or forecast method obtain network delay, then must know the accurate probability distribution of network delay, or mathematical model accurately, but because the size of network delay may be at random, become in the time of also may being, its value is relevant with concrete factors such as procotol, offered load size and network topology structure, all may have deviation to the estimation or the identification of network delay.

Therefore, how to exempt and send (control) device node and the synchronous requirement of actuator node clock signal change, release is sent the estimation of network delay between (control) device node and actuator node or is debated knowledge change, can obtain simultaneously between the node time delay value accurately again, and then realize change is sent the compensating action of network delay between (control) device node and the actuator node, having become network control system needs a difficult point problem solving in studying.

Summary of the invention

In order to solve the problems of the technologies described above, to the invention provides a kind of network that relates to and exist only in and become the network control system delay compensation method send between (control) device node and the actuator node.

Purpose of the present invention:

Exist only at network and to become in the network control system send between (control) device node and the actuator node, the difficult problem of network delay " indeterminacy ", the present invention proposes a kind of release requirement synchronous to node clock signal, also exempt simultaneously the delay compensation method of measurement, estimation or identification, realize real-time, online and dynamic compensation and control network delay to its network delay.

The method that the present invention adopts is:

The first step: adopt to become and send (control) device node to replace the compensation model of network delay therebetween to real network data transmission process between the actuator node, thereby the system that structurally realizes does not comprise the compensation model of network delay therebetween. how complicated and uncertain no matter send (control) device node to have to the network path the actuator node from change, also no matter include therebetween what routers or (with) intermediate link, the network delay that information flow experienced is exactly a real network delay in the control procedure, has just realized the compensate function to its time delay in the information stream transmission process.

Second step: exist only at network shown in Figure 2 and to become the network control system send between (control) device node and the actuator node, the delay compensation of enforcement the inventive method is as shown in Figure 3.

In Fig. 3, be from the input R (s) of system and the closed loop transfer function, between the output Y (s)

$\frac{Y\left(s\right)}{R\left(s\right)}=\frac{C_1\left(s\right)e^{-\mathrm{\τs}}(1+C_2\left(s\right)G_m\left(s\right))G\left(s\right)}{(1+C_1\left(s\right)G_m\left(s\right))(1+C_2\left(s\right)G\left(s\right))+C_1\left(s\right)e^{-\mathrm{\τs}}[(1+C_2\left(s\right)G_m\left(s\right))G\left(s\right)-(1+C_2\left(s\right)G\left(s\right))G_m\left(s\right)]}---\left(2\right)$

As controlled device prediction model G _mWhen (s) equaling controlled device G (s), formula (2) but abbreviation be

$\frac{Y\left(s\right)}{R\left(s\right)}=\frac{C_1\left(s\right)e^{-\mathrm{\τs}}G\left(s\right)}{1+C_1\left(s\right)G\left(s\right)}---\left(4\right)$

In the denominator of closed loop transfer function,, do not comprise the exponential term e of network delay τ shown in the formula (3) ^{-τ s}, promptly realized at its closed loop secular equation 1+C ₁(s) do not comprise the exponential term of network delay among the G (s)=0, thereby eliminated the influence of network delay, improved the control performance quality of system, realized compensate function network delay to system stability.

As controlled device prediction model G _mWhen (s) being not equal to controlled device G (s), the second controller C ₂(s) but enhanced system robustness and antijamming capability.

The scope of application of the present invention:

The present invention is applicable to that network exists only in and becomes in the network control system send between (control) device node and the actuator node, the controlled device mathematical model is known or not exclusively know, its network delay can be at random, time becomes or uncertain, also can be known or definite network delay compensation and control.

The invention is characterized in that this method may further comprise the steps:

1, when (control) device node is sent in change by the periodic sampling signal triggering, will adopt mode A to carry out work;

2, send (control) device node with control signal u when change ₁(s) pass through the feedforward network path when the actuator node transmits, will adopt mode B to carry out work;

3, when the actuator node by signal u ₁When (s) triggering, will adopt mode C to carry out work.

The step of mode A comprises:

A1: become and send (control) device node to work in the time type of drive, its trigger pip is the periodic sampling signal;

A2: after change send (control) device node to be triggered, to output signal Y (s) and the controlled device prediction model G of controlled device G (s) _m(s) output signal y _Gm(s) sample;

A3: with Y (s) and y _Gm(s) implement additive operation, obtain the model bias signal w (s) of controlled device;

A4: with the given signal R of system (s) and w (s) and y _m(s) implement additive operation, obtain error signal e (s);

A5: e (s) is implemented control algolithm C ₁(s), controlled signal u ₁(s).

The step of mode B comprises:

B1: become and send (control) device node with control signal u ₁(s), transmit to the actuator node by the feedforward network path.

The step of mode C comprises:

C1: the actuator node works in event driven manner, and controlled signal u ₁(s) trigger;

C2: in the actuator node, according to the size of the model bias signal w (s) of controlled device, the second controller C ₂(s) implement conventional control or Intelligent Control Strategy, its output signal is u ₂(s);

C3: with u ₁(s) and u ₂(s) difference u ₃(s) as carrying out drive signal, controlled device G (s) is implemented control;

C4: finish to controlled device prediction model G _m(s) output signal y _Gm(s) calculating.

4, delay compensation method of the present invention is characterized in that system comprises change and send unit such as (control) device, actuator, second controller, controlled device and its prediction model, and each unit carries out work according to the working method of setting separately.

5, delay compensation method of the present invention, it is characterized in that using and send (control) device to replace network delay compensation model therebetween from change really, thereby the system that structurally realizes does not comprise the compensation model of network delay therebetween to the network data transmission process the actuator node.

6, delay compensation method of the present invention is characterized in that controller C ₁(s) be used for reducing the influence of (elimination) error signal e (s) to dynamic performance.

7, delay compensation method of the present invention is characterized in that as true controlled device G (s) and its prediction model G _m(s) during indifference (w (s)=0), can realize full remuneration, improve the control of quality of system the feedforward network path time delay.

8, delay compensation method of the present invention is characterized in that as true controlled device G (s) and its prediction model G _mWhen (s) poor (w (s) ≠ 0) being arranged, the second controller C ₂(s) but the robustness of enhanced system and antijamming capability.

9, delay compensation method of the present invention is characterized in that sending measurement, estimation or the identification of (control) device to the network delay the actuator node from the structure release to change.

10, delay compensation method of the present invention is characterized in that sending (control) device and the synchronous requirement of actuator node clock signal from the structure release to change.

11, delay compensation method of the present invention is characterized in that realizing that from structure the enforcement of network delay compensation method is irrelevant with the selection of concrete control strategy.

12, delay compensation method of the present invention is characterized in that realizing that from structure the enforcement of network delay compensation method is irrelevant with the selection of concrete network communication protocol.

13, delay compensation method of the present invention, the mode A of it is characterized in that are applicable to become and send (control) device periodic sampling and signal is handled.

14, delay compensation method of the present invention, the mode B of it is characterized in that are applicable to become and send (control) device transmitting network data.

15, delay compensation method of the present invention, the mode C of it is characterized in that are applicable to actuator node enforcement second control and carry out function.

The present invention has following advantage:

1, because from measurement, estimation or the identification of structure release to network delay, exempted the synchronous requirement of node clock signal, and then avoided the inaccurate evaluated error that causes of time delay estimation model, avoided the required waste that expends the node storage resources of time delay identification, also avoided simultaneously because the compensating error that " the empty sampling " that time delay causes or " many samplings " bring.

2, irrelevant owing to realizing with the selection of concrete network communication protocol from structure, thereby both be applicable to the network control system that adopts wired network protocol, also be applicable to the wireless network protocol network control system; Both be applicable to the deterministic network agreement, also be applicable to the procotol of uncertainty.

3, owing to realized with the selection of concrete control strategy irrelevantly from structure, thereby both can be used for adopting the network control system of conventional control, also can be used for the network control system that adopts Based Intelligent Control or adopt complicated control strategy.

4, the inventive method both can be used for constant time delay (comprising no propagation delay time), also can be used at random, time becomes and the nondeterministic network delay compensation.

5, because the present invention adopts is the compensation method that " soft " changes the control system structure, thereby in its implementation procedure, need not to increase again any hardware device, the software resource that utilizes existing network control system intelligent node to carry, just be enough to realize its compensate function, thereby can save hardware investment, be easy to be extended and applied.

Description of drawings

Fig. 1 becomes the network control system block scheme that send between (control) device node and the actuator node for network exists only in.

Fig. 2 becomes the network control system structural drawing that send between (control) device node and the actuator node for network exists only in.

Fig. 3 send the structural drawing of the network control system delay compensation method between (control) device node and the actuator node for change of the present invention.

Exist only at Fig. 1 network and to become in the network control system block diagram send between (control) device node and the actuator node, system comprises input signal R, output signal Y, controlled device (G), become and send (control) device (S/C), the feedforward network path, the unit such as actuator (A). wherein:

Become and to send (control) device (S/C) node employing time type of drive to carry out work, the triggering cycle is h, and controlled device (G) implementation cycle is sampled.

Actuator (A) node adopts event driven manner to carry out work, send (control) device (S/C) node to trigger by the control signal of feedforward network path by change, its output signal node changes the state of controlled device (G), realizes the control action to controlled device (G).

(control) device (S/C) node is sent in change among Fig. 1, and actuator (A) node all is intelligent node, not only possess storage calculation function and communication function, and all possess software configuration and control function, these nodes comprise now the hardware such as intelligent node common in the industrial field bus control system (FCS) of extensive use and the Distributed Control System (DCS) or smart machine.

Exist only at Fig. 2 network and to become in the network control system structure chart send between (control) device node and the actuator node, system comprises input signal R, output signal Y, controlled device (G), feedforward network delay e^-τs, controller C₁Deng the unit.

Data transfer is experiencing from change and is sending the impact of (control) device node to the network data transmission time delay τ the actuator node among Fig. 2. time delay and concrete procotol, the factors such as offered load size and network topology structure are relevant, present or permanent, or at random, or the time become, or the characteristic such as uncertain, measurement for network delay, or estimate, or observation, yet or identification becomes the crucial precondition that realizes its compensation., the distributivity of each node by network connection is so that each node in the network control system is difficult to satisfy the requirement of clock synchronous, simultaneously, because the randomness of network delay and sudden will accomplish that each step can both Accurate Prediction be impossible.

In Delays In Networked Control System compensation method structure chart between (control) device node and the actuator node was sent in Fig. 3 change of the present invention, system comprised input signal R, output signal Y, controlled device (G), controlled device prediction model (G_m), feedforward network postpones e^-τs, controller C₁, second controller C₂Deng the unit.

Owing to do not contain the prediction model of network delay among Fig. 3, exempted at random, time becomes or measurement, estimation, observation or the identification of uncertain network delay τ, also exempted simultaneously and sent (control) device node and the synchronous requirement of actuator node clock signal to change, and realized the exponential term e with network delay τ^-τsFrom the closed loop characteristic equation, eliminate, thereby reduced the impact of time delay to the stability of a system, improved the control performance quality of system, realized compensation and control to network delay.

Embodiment

To make clearer above-mentioned and other feature and advantage of the present invention of those of ordinary skill in the art by describing exemplary embodiment of the present invention in detail below with reference to accompanying drawing 3.

Concrete implementation step is as described below:

The first step: the change that works in the time type of drive send (control) device node that controlled output signal Y to G (s) (s) and controlled device are estimated mould G _m(s) output signal y _Gm(s) carry out periodic sampling; And to Y (s) and y _Gm(s) implement additive operation, obtain model bias signal w (s); With given signal R (s) and w (s) and y _m(s) implement additive operation, obtain error signal e (s); E (s) is implemented control algolithm C ₁(s), controlled signal u ₁(s); With control signal u ₁(s), transmit to the actuator node by the feedforward network path;

Second step: the actuator node that works in event driven manner is by feedforward network path signal u ₁(s) trigger; With control signal u ₁(s) put on G _m(s), obtain model output signal y _Gm(s); According to the size of the model bias signal w (s) of controlled device, the second controller C ₂(s) implement conventional control or Intelligent Control Strategy, its output signal is u ₂(s); With u ₁(s) and u ₂(s) difference u ₃(s) as carrying out drive signal, controlled device G (s) is implemented control;

The 3rd step: return the first step.

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being done, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

The content that is not described in detail in this instructions belongs to this area professional and technical personnel's known prior art.

Claims (11)

1. become the delay compensation method that send the two control functions of band between (control) device and actuator, it is characterized in that this method may further comprise the steps:

(1). when (control) device node is sent in change by the periodic sampling signal triggering, will adopt mode A to carry out work;

(2). when change send (control) device node with control signal u ₁(s) pass through the feedforward network path when the actuator node transmits, will adopt mode B to carry out work;

(3). when the actuator node by signal u ₁When (s) triggering, will adopt mode C to carry out work.

2. compensation method according to claim 1 is characterized in that the step of described mode A comprises:

A1: become and send (control) device node to work in the time type of drive, its trigger pip is the periodic sampling signal;

A2: after change send (control) device node to be triggered, to output signal Y (s) and the controlled device prediction model G of controlled device G (s) _m(s) output signal y _Gm(s) sample;

A3: with Y (s) and y _Gm(s) implement additive operation, obtain the model bias signal w (s) of controlled device;

A4: with the given signal R of system (s) and w (s) and y _m(s) implement additive operation, obtain error signal e (s);

A5: e (s) is implemented control algolithm C ₁(s), controlled signal u ₁(s).

3. compensation method according to claim 1 is characterized in that the step of described mode B comprises:

B1: become and send (control) device node with control signal u ₁(s), transmit to the actuator node by the feedforward network path.

4. compensation method according to claim 1 is characterized in that the step of described mode C comprises:

C1: the actuator node works in event driven manner, and controlled signal u ₁(s) trigger;

C2: in the actuator node, according to the size of the model bias signal w (s) of controlled device, the second controller C ₂(s) implement conventional control or Intelligent Control Strategy, its output signal is u ₂(s);

C3: with u ₁(s) and u ₂(s) difference u ₃(s) as carrying out drive signal, controlled device G (s) is implemented control;

C4: finish to controlled device prediction model G _m(s) output signal y _Gm(s) calculating.

5. method according to claim 1 is characterized in that system comprises change and send unit such as (control) device, actuator, second controller, controlled device and its prediction model, and each unit carries out work according to the working method of setting separately.

6. method according to claim 1, it is characterized in that using and send (control) device to replace network delay compensation model therebetween from change really, thereby the system that structurally realizes does not comprise the compensation model of network delay therebetween to the network data transmission process the actuator node.

7. method according to claim 1 is characterized in that controller C ₁(s) be used for reducing the influence of (elimination) error signal e (s) to dynamic performance.

8. method according to claim 1 is characterized in that as true controlled device G (s) and its prediction model G _m(s) during indifference (w (s)=0), can realize full remuneration, improve the control of quality of system the feedforward network path time delay; As true controlled device G (s) and its prediction model G _mWhen (s) poor (w (s) ≠ 0) being arranged, the second controller C ₂(s) but the robustness of enhanced system and antijamming capability.

9. method according to claim 1 is characterized in that sending measurement, estimation or the identification of (control) device to the network delay the actuator node from the structure release to change, exempts and send (control) device and the synchronous requirement of actuator node clock signal to change.

10. method according to claim 1 is characterized in that realizing that from structure the enforcement of network delay compensation method is irrelevant with the selection of concrete control strategy, and is irrelevant with the selection of concrete network communication protocol.

11. method according to claim 1, the mode A of it is characterized in that is applicable to become and send (control) device periodic sampling and signal is handled; Mode B is applicable to become and send (control) device transmitting network data; Mode C is applicable to actuator node enforcement second control and carries out function.

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