RU49313U1 - DEVICE FOR DETERMINING MONITOR CALIBRATION TIME - Google Patents

Abstract

The utility model relates to the field of data processing for special applications, in particular, for modeling and studying the process of changing the characteristics of monitors and determining the time of their calibration. The device comprises a control unit, a memory block of time samples, a memory register of time samples, a memory block for calibration parameters, a register 5 for memory calibration parameters, a data processing unit, a unit for determining a calibration time, a memory block for a calibration time. The required technical result associated with the expansion of functionality is achieved by providing modeling and investigation of the process of changing the parameters of monitors and determining the values of the time for calibration of its parameters.

Description

The utility model relates to the field of data processing for special applications, in particular, for modeling and studying the process of changing the characteristics of monitors and determining the time of their calibration.

A device is known that contains blocks of two types, local controllers connected to these devices, a central controller and a card issuing device [US Patent No. 5225977, cl. G06F 15/30].

The disadvantage of this device is the relatively narrow functionality.

Closest to the technical nature of the proposed is an information processing system containing an information processing device containing identifying information elements, means for identifying information output, comparison means, selective reception means, and also the first and second data processing means with corresponding connections [RU, 2236703, C2, G 06 F 19 / 00,20.09.2004].

The disadvantage of this device is the relatively narrow functionality, due to the fact that it allows you to process information, but does not allow you to simulate and study the process of changing the characteristics of monitors and determining the time of calibration.

The required technical result is to expand the functionality.

The required technical result is achieved by the fact that, in the device containing the data processing unit, a control unit, a unit is introduced

the memory of the time samples, the memory register of the time samples, the group of inputs of which is connected to the group of outputs of the memory block of the time samples, the memory of the calibration parameters, the group of inputs of which is connected to the group of inputs of the memory block of the time samples and the group of outputs of the control unit, the memory register of the calibration parameters, group the inputs of which are connected to the group of outputs of the calibration parameter memory unit, and the group of outputs is connected to the first group of inputs of the data processing unit, the second group of inputs of which is connected to the group o of the outputs of the register of time samples, a calibration time determination unit, the input group of which is connected to the output group of the data processing unit, and a calibration time memory unit, whose input group is connected to the output group of the calibration time determination unit, and the input is connected to the first output of the control unit , the second output of which is connected to the control inputs of the memory register of the time samples and the memory register of the calibration parameters.

The drawing shows: in Fig.1 - structural diagram of a device for determining the calibration time of monitors, in Fig.2 - control unit.

A device for determining the values of quality indicators of information systems (Fig. 1) comprises a control unit 1, a memory unit 2, a memory register 3, a group of inputs of which is connected to a group of outputs of a unit 2 of the memory unit, a unit 4 of calibration parameter memory, a group the inputs of which are connected to the group of inputs of the block 2 of the memory of the time samples and to the group of outputs of the control unit 1, the register 5 of the memory of the calibration parameters, the group of inputs of which is connected to the group of outputs of the block 4 of the memory of the caliber application, and outputs a group - coupled with a first group of input data processing unit 6, a second group of inputs of which is connected with a group of memory output register 3 counts time unit 7 determining the calibration time, a group of inputs of which is connected to a group of outputs

a data processing unit 6, and a calibration time memory unit 8, the input group of which is connected to the output group of the calibration time determination unit 7, and the input is connected to the first output of the control unit 1, the second output of which is connected to the control inputs of the register 3 of the time and register samples 5 memory calibration parameters.

The control unit 1 (figure 2) contains a clock generator 9 (GTI), the output of which is the second output of the control unit 1, and a pulse counter 10, the group of information outputs of which is a group of outputs of the control unit 1, and the overflow output is connected to the stop input GTI 9 and is the first output of the control unit 1.

Block 2, group 4 blocks, block 6 and block 7 can be made in the form of specialized computing devices, and in the particular case in the form of programmable read-only memory devices (ROM), in which each of the given input codes corresponds to the required output codes . The following example of the operation of the device is sufficient for their technical implementation (manufacturing, programming). Registers 3 and 5 can be made in the form of multi-bit shift registers, and block 7 - in the form of a memory register. GTI 8 and counter 9 pulses are standard elements of computer technology.

The device operates to determine the calibration time of monitors as follows.

It is known that the parameters of monitors undergo aging and change over time. Therefore, calibration and adjustment of these parameters is periodically necessary. With a large number of types of monitors and their operating conditions, there is a problem of planning their maintenance, in particular, determining the time for calibrating their parameters.

Previously, for samples of specific types of monitors, statistical (experimental) studies are performed. IN

in particular, the required calibration parameter Y is selected and, for samples of monitors of the corresponding types, the values Yi of these parameters are taken at some fixed time points Ti ... Ti ... T n. The results of experimental studies, in which, in the general case, a random component from experiment to experiment is present, are entered at the same current addresses (associated, for example, with the experiment number (i = l ... n)), in the corresponding memory blocks: values Yi - to block 4 of the memory of the calibration parameters, and the values of time instants Ti - to block 2 of the memory of the time samples.

The device starts when starting the GTI 9 and resetting the counter 10, registers 3 and 5, as well as the memory unit 8, for example, through power circuits, which are non-essential features in the framework of this application and are not shown in the drawing.

The counter 10 performs the counting of pulses, which leads to the formation of addresses (experiment numbers) sequentially at its output, which are supplied to the address inputs of memory blocks 2 and 4.

In addition, the GTI 9 pulses are fed to the control inputs of register 3 and register 5 simultaneously with the change of addresses, which leads to sequential recording of information in the corresponding registers. The results of the experiments are fed to the data processing unit 6. In this block, the parameters A ₀ and A _{1 of the} regression model are calculated, which determines the dependence of the calibration parameter on time:

Y = A ₀ + A ₁ T

In the particular case, these parameters can be calculated using the least squares method.

A ₁ = (Sum (Yi) Sum (Ti) - n Sum (TiYi)) / (Sum (Ti) Sum (Ti) - n Sum (Ti Ti))

A ₀ - = (Sum (Yi) - A ₁ Sum (Ti)) / n, where the sign Sum (*) means summation over the number of experiments.

Parameters A ₀ and A ₁ from block 6 are supplied to block 7 for determining the calibration time. If we take into account that the model parameter A ₀ corresponds to the initial value of the calibration parameter, then with the maximum permissible deviation of the calibration parameter in relative units dn equal to about 0.1-0.2, the calibration time can be determined by the formula:

T _K = dnA ₀ /) | A ₁ l |

After the generation of the GTI 9 n pulses at the overflow output of the counter 10, a pulse is generated by which the GTI 9 is stopped and the resulting signal generated by block 7 is recorded in block 8 of the calibration time memory.

Thus, in the proposed device, the required technical result is achieved, associated with the expansion of functionality, since the device allows not only to process information, but also to simulate and study the process of changing the parameters of monitors and determining the values of the calibration time of its parameters.

Claims (1)

A device for determining the calibration time of monitors, containing a data processing unit, characterized in that a control unit, a memory unit of time samples, a memory register of time samples, the input group of which is connected to a group of outputs of a memory unit of time samples, a memory unit for calibration parameters, an input group of which connected to the group of inputs of the memory block of time samples and to the group of outputs of the control unit, a register of memory of calibration parameters, the group of inputs of which is connected to the group of outputs of the memory block calibration meters, and the group of outputs is connected to the first group of inputs of the data processing unit, the second group of inputs of which is connected to the group of outputs of the register of time samples, the calibration time determination unit, the group of inputs of which is connected to the group of outputs of the data processing unit, and also the calibration time memory block the input group of which is connected to the output group of the calibration time determination unit, and the input is connected to the first output of the control unit, the second output of which is connected to the control inputs of the register memory time and memory register calibration parameters.