Claims
- 1. A method for the simulation of a technical system in a number of simulation steps, with the technical system being described by a state description which includes state variables of the technical system, the state description being represented as a dynamic diagram including combinational elements which include at least one of at least one summer, at least one multiplier, at least one functional block and at least one integrator, and the combinational elements respectively including at least one associated signal input and signal output, and a Jacobi matrix of the state description being used for solving the state description, the method comprising
extending the number of signal inputs and signal outputs of each combinational element, for each signal input and signal output, by a number which corresponds to the number of state variables of the technical system, so that, using the extended signal inputs and signal outputs, partial derivatives of signals present at the signal inputs and signal outputs are additionally registerable on the basis of the individual state variables; respectively initializing, in a first simulation step, the extended signal outputs of the integrators present, wherein for each integrator, respectively provided for determining a state variable and assigned to this state variable, an initialization value is prescribed in the extended signal outputs of said integrator at a signal position which corresponds to the state variable assigned to the integrator; and respectively determining the Jacobi matrix, in following simulation steps, by the signals present at the extended signal inputs of the integrators, the current values of the extended signal inputs of an integrator corresponding to the current values of a row of the Jacobi matrix, so that the entirety of the current values of the signals present at the extended signal inputs of all the integrators comprises the Jacobi matrix.
- 2. A simulator for the simulation of a technical system in a number of simulation steps, wherein the technical system is described by a state description which includes state variables of the technical system, the state description being represented as a dynamic diagram including combinational elements, which include at least one of at least one summer, at least one multiplier, at least one functional block and at least one integrator, and wherein a Jacobi matrix of the state description is used for solving the state description, the simulator comprising:
means for extending the number of signal inputs and signal outputs of each combinational element, for each signal input and signal output, by a number which corresponds to the number of state variables of the technical system; and means for registering, using the extended signal inputs and signal outputs, the partial derivatives of signals present at the signal inputs and signal outputs on the basis of the individual state variables, so that the entirety of the current values of the signals present at the extended signal inputs of all the integrators comprises the Jacobi matrix, the integrators being respectively assigned a state variable.
- 3. A method for simulating a technical system, the technical system being described by a state description including state variables of the technical system, the state description being represented as a dynamic diagram of combinational elements and a Jacobi matrix of the state description being used for solving the state description, the method comprising:
using extended signal inputs and signal outputs of each combinational element, extended by a number corresponding to the number of state variables of the technical system, to register partial derivatives of signals present at the signal inputs and signal outputs on the basis of the individual state variables; initializing the extended signal outputs of integrators, wherein for each integrator an initialization value is prescribed in the extended signal outputs of said integrator at a signal position which corresponds to the state variable assigned to the integrator; and determining the Jacobi matrix from the signals present at the extended signal inputs of the integrators, wherein current values of the extended signal inputs of an integrator correspond to the current values of a row of the Jacobi matrix, and wherein the entirety of the current values of the signals present at the extended signal inputs of all the integrators comprises the Jacobi matrix.
- 4. A simulator for simulation of a technical system, the technical system being described by a state description including state variables of the technical system and wherein a Jacobi matrix of combinational elements of the state description is used for solving the state description, the simulator comprising:
means for extending signal inputs and signal outputs of the combinational elements by a number corresponding to the number of state variables of the technical system; and means for using the extended signal inputs and signal outputs to register the partial derivatives of signals present at the signal inputs and signal outputs on the basis of the individual state variables.
- 5. The simulator of claim 4, wherein an entirety of the current values of the signals present at the extended signal inputs of all the integrators comprises the Jacobi matrix, the integrators being respectively assigned a state variable.
- 6. A method for simulating a technical system, the technical system being described by a state description including state variables of the technical system, wherein a Jacobi matrix of combinational elements of the state description is used for solving the state description, the method comprising:
extending signal inputs and signal outputs of the combinational elements by a number corresponding to the number of state variables of the technical system; and using the extended signal inputs and signal outputs to register the partial derivatives of signals present at the signal inputs and signal outputs on the basis of the individual state variables.
- 7. The method of claim 6, wherein an entirety of the current values of the signals present at the extended signal inputs of all the integrators comprises the Jacobi matrix, the integrators being respectively assigned a state variable.
Priority Claims (1)
Number |
Date |
Country |
Kind |
02005439.1 |
Mar 2002 |
EP |
|
Parent Case Info
[0001] This application is the national phase under 35 U.S.C. § 371 of PCT International Application No. PCT/EP03/01863 which has an International filing date of Feb. 24, 2003, which designated the United States of America and which claims priority on European Patent Application number EP 02005439.1 filed Mar. 8, 2002, the entire contents of which are hereby incorporated herein by reference.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/EP03/01863 |
2/24/2003 |
WO |
|