Terminal state restricted planet type hybrid power system global optimization method

A hybrid system and global optimization technology, applied in hybrid vehicles, motor vehicles, complex mathematical operations, etc., can solve the problems of increasing computing time, long computing time, reducing the application value of penalty function methods, etc. The effect of cost reduction, avoidance of commissioning work, and increased efficiency

Active Publication Date: 2018-09-14
JILIN UNIV
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Problems solved by technology

However, the penalty function in most studies requires researchers to conduct multiple debugging based on experience, which will bring a larger amount of calculation and increase the calculation time by several times, which will not be conducive to the automatic implementation of the global optimization algorithm
In addition, since the model parameters used for optimization will change with the passage of time or the vehicle state, and the target operating conditions of the global optimization will also change with the historical operating data, these factors will lead researchers to produce The calibrated penalty function is not robust, further reducing the application value of the penalty function method
For example, the patent for invention published on June 8, 2016: application publication number: CN 105644548 A, energy control method and device for hybrid electric vehicles, the method is based on stochastic model predictive control and neuron dynamic programming algorithm to realize the energy control of hybrid electric vehicles Energy management control, neuron dynamic programming algorithm for global optimization solution, by setting the reward and punishment function to keep the system power balance, need to constantly debug the factors of the reward and punishment function, there is a huge debugging workload, long calculation time, and low efficiency of global optimization solution And other issues

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  • Terminal state restricted planet type hybrid power system global optimization method
  • Terminal state restricted planet type hybrid power system global optimization method
  • Terminal state restricted planet type hybrid power system global optimization method

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Embodiment Construction

[0048] The present invention will be further described below in conjunction with accompanying drawing:

[0049] Such as figure 1 As shown, the global optimization method of planetary hybrid power system with constrained terminal state is characterized by:

[0050] The first step is to determine the global optimization objective function and constraints of the planetary hybrid power system: the global optimization problem of the planetary hybrid power system is expressed as:

[0051]

[0052]

[0053] In formula (1), J(u(t)) is the cost function of the system, which can be expressed as the instantaneous cost L(x(t),u(t),t) at each moment in the whole working condition for the hybrid system Integral, plus a penalty function G(x(t) based on the termination state f )),as follows:

[0054]

[0055] The configuration of the planetary hybrid power system of this embodiment is as follows figure 2 As shown, the cost function and constraints of the planetary hybrid power s...

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Abstract

The invention provides a terminal state restricted planet type hybrid power system global optimization method, and belongs to the technical field of new energy vehicles. The method comprises the stepsthat before DP backward motion optimization, system boundary calculation is carried out, an dboundary restriction of a state variable of every moment is obtained, so that the boundary restriction isconsidered in the backward iterative optimization process, and electric quantity balance of the system is achieved. By means of a solution of the boundary restriction, no penalty function is needed, and a large amount of debugging work conducted in order to achieve the electric quantity balance is avoided; meanwhile, robustness of an algorithm is no longer affected by model parameters and operation conditions, the amount of calculation and the time cost are lowered, and the efficiency of optimizing the algorithm is significantly improved.

Description

technical field [0001] The invention provides a global optimization method for a planetary hybrid power system with constrained end states, belonging to the technical field of new energy vehicles. Background technique [0002] Hybrid power has the requirement of power balance, and the current energy management strategy optimization based on DP global optimization usually uses a penalty function to meet the system's terminal state constraints. However, the penalty function in most studies requires researchers to conduct multiple debugging based on experience, which will bring a larger amount of calculation and increase the calculation time by several times, which will not be conducive to the automatic implementation of the global optimization algorithm. In addition, since the model parameters used for optimization will change with the passage of time or the vehicle state, and the target operating conditions of the global optimization will also change with the historical opera...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60W20/00B60W10/26G06F17/10
CPCY02T10/84B60W20/00B60W10/26B60W2510/242B60W2510/244B60W2710/242G06F17/10
Inventor 曾小华王越宋大凤杨南南朱丽燕张学义黄海瑞
Owner JILIN UNIV
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