SU511583A1 - Device for polling subscribers - Google Patents

Description

one

The invention relates to computing.

There are known devices for polling subscribers, which contain a pulse generator, the output of which is connected through a series-connected element and a two-component switch, to the second input of which, via the first pushbutton switch, a zero-potential joint is connected to the input of a pulse distributor, one output of which is connected through the serially connected second pushbutton switch to the element and LI is connected to the second input of the element, the other output is connected to the first input of the display unit, and the remaining outputs are connected to the input Amount of corresponding individual remotes subscribers. The same outputs of the latter are combined and connected to the corresponding inputs of the display unit and the unit for comparing the answers to the standard, the output of which is connected via a counter to the corresponding input of the display unit.

The purpose of the invention is to improve speed.

To accomplish this goal, the proposed device contains a subscriber monitoring unit, the inputs of which are connected to the corresponding output

subscriber, and the output is connected to the second input of the element OR, besides, the subscriber control unit contains the element HEl two-section three-way switch, power supply and light

a banner connected through one section of a two-section three-position switch to the power source. The inputs of the And element are connected to the corresponding inputs of the subscriber control unit, and its output

through parallel elements connected to it, another section of a two-section three-position switch is connected to the output of the counterpart block of subscribers. The block of answers compared with the standard contains elements NOT and two

by the number of inputs of the block of responses to the reference, multi-position switch, the elements and the toggle switch connected between the output of the block of the comparison of answers with the reference and the output

Claims (3)

element and the inputs of which are connected to the outputs of the corresponding two-position switches, one inputs of which are connected to the corresponding inputs of the response comparing unit with the standard, and the second through the corresponding elements E, the inputs of the multi-position switch are connected to the corresponding inputs of the response comparing unit with the reference, and its output is connected to the second input toggle switch.  FIG.  1 block diagram of a device for subscriber survey; in fig.  2 - functional block diagram of the comparison of responses with the standard; in fig.  3 - functional block diagram of the subscriber control; in fig.  4 is a diagram of an individual subscriber console.  The device contains a pulse generator 1, element II, element IL-3, two-position switch 4, pushbutton switches 5 and 6, pulse distributor 7, block 8 comparing responses to this bar, counter 10, display unit C, block 12 control of subscribers, detachable connections 13, -13 „and individual consoles or 13 tenta 14d5.  Block 8, comparing answers with a standard, contains elements NE, a two-position multi-position switch 17, element 18 And a toggle switch 19.  The subscriber control unit 12 contains an element 20 and elements HH 21, a two-section three-position switch 22 with sections 22 and 22, a light transparency 23 with indicator 24 and 24, and a power source 25.  The subscribers' individual console 14 contains two-way switches 26 26. and dividing diodes ,, М1 M.  The device works as follows.  From the pulse generator 1 to the element, there are pulses that are output to its output in the presence of a resolving potential at its second input, t.  e.  element output OR 3.  If there is at least one of the inputs of the ILIZ element of the inhibiting potential, the output of pulses from the AND 2 element stops.  In the automatic mode of operation, the pulses from the output of the element I 2 through a two-position switch 4 are fed to the input of the pulse distributor 7, at the outputs of which they appear in the order from the first to the N-th.  In the same echelon / step, the individual control panels of subscribers 14 are polled, the responses of which are encoded with M-bit positional or binary codes.  These codes take place on M o6uut3t output wedges, combining M outputs of all individual subscriber stations 14.  Therefore, during the survey of the first, second. . . . N-th subscribers dialed by them parallel M-bit codes at the corresponding points in time, determined by polling pulses from the outputs of the pulse distributor 7, take place on the output slots of the individual subscriber consoles 14.  These codes arrive at the response comparison unit with the reference 8, where each of them is compared with the reference code set using either the Duplex switches 16, -16, or 1 M multi-position switch 17.  When the codes match, a one is added to the counter 10, and a successive comparison of all the codes on the counter 10 will result in a fixed "1 number equal to the number of M-bit codes matching the reference code set on the keyboard.  This determines the number of subscribers who have chosen a particular answer from among all the simplified ones.  After interrogating the last, / Uggo subscriber, and the zero output of the distributor of impulses 7, the inhibiting potential appears.  It acts through the elements 3 on the element I 2, in effect (ultimately, the drooping of the pulses to the input of the distributor of the pulses 7 stops.  Thereafter, an indication of 10, which reflects the number of subscribers with a given answer, is read from the INDICATION unit 11.  The next ticket code is then set, and the poll is repeated.  To do this, by activating the disconnect knochny switch OFF 6 from the input of the ILIZ element, the prohibiting lotteshap is briefly removed, resulting in impulses from the output of the I2 element and the input of the pulses 7.  The cross-section potential from the zero output of the pulse distributor 7 is superimposed, and the subscribers oipoc is repeated as described above.  The time of one polling cycle can be quite short: it is determined by the time when the start button is pressed, t.  e.  is O, 1-O, 5 sec.  Thus, subscribers are polled in a maximum of a few seconds, t.  e.  almost instantly for the experimenter.  The number of polling cycles is determined by the number of possible answers of subscribers, t.  e.  M.  After the subscribers are polled for the next question, they are presented with the next questionnaire questionnaire, to which they answer with the appropriate codes on the individual subscriber consoles 14, and the described poll cycle is repeated.  In the manual mode of operation, the input of the pulse distributor 7 is connected to the pushbutton switch 5 via the two-position switch 4, each press of which only one subscriber is polled, and it is possible to control its code with an india module 11.  Otherwise, the operation of the device does not differ from that described in automatic mode.  After each push of a push button switch, the experimenter has unlimited time for summing up results and analyzing Tuashga C.  The unit 12 of the control of the subscribers performs an information and logical analysis of the codes in the polling process in accordance with the specified criteria.  If the subscriber acts incorrectly, his code affects the subscriber control unit 12 in such a way that it issues an inhibitory potential to the input of the element or 3, and the interruption is interrupted due to the element closing and 2.  In this case, the number of the subscriber dialing the wrong code can be observed on the display unit 11, and the result of indicating the position of the pulse distributor 7.  After the subscriber eliminates the error, block 12 of the control of the subscriber issues a permitting potential, and the survey continues.  Monitoring is done automatically during the polling process and does not require additional time.  Individual subscriber consoles 14 are connected with installation by flexible harnesses through detachable connections, which allow individual subscriber consoles 14 to be connected with any number M of coding elements, which allows solving a wide range of sociological research tasks and makes the device universal in this area.  Flexible harnesses allow subscribers to be placed with the necessary amenities.  Coding of responses by subscribers is as follows.  Previously, all subscribers elect M-codes on individual subscriber consoles 14-14 | , in accordance with the table of answers to the next question presented by him; the subscriber's answer consists in choosing one or several answers from the proposed table and dialing them in the form of M-bit binary or positional codes on the individual subscribers' consoles 14, on which, at the time of the survey, thus recorded the answers of the subscribers.  The negative impulse of polling the next subscriber from a certain output of the impulse distributor 7 through a detachable connection 13 goes to the assigned subscriber's remote control 14 | Where it will be given to the outputs of two-poster trans. key 26 only in those of the M-bit places where the subscriber dialed a unit.  In such bits of blue-chip separating diodes 27, a negative impulse is received at the outputs connected by the M bus.  From the other of the M bits of the individual subscriber console 14, in which the subscriber dialed a zero code, a zero potential is removed for the output buses, since the corresponding two-position switches 26 are connected to the housing.  Thus, as a result of polling the next subscriber on the M output tires of the individual remotes of subscribers 1414. . .  there is a parallel code, in which the unit is represented by a negative impulse, and zero is represented by a zero potential.  Specified codes can be binary or positional.  Binary codes contain information about the choice of one answer by the subscriber from their total number (), since a response with a zero number is not provided.  Positional codes contain information on the joint selection of subscribers at the same time from several answers from their total number M, which they relate to a certain sign.  The operation of the block for comparing responses with a reference when working with binary codes. In this mode, the output of the element and 18 is connected via a toggle switch 19 to the input of the counter 10, and the M inputs of the element and 18 receive information from the M two-position switches. .  for 1 M reference code setting.  Depending on the position of each on-off switch 16-16 to a specific input of the element and 18, a forward or reverse code will be sent from the corresponding of M bits on the output buses of the individual remotes of subscribers 14-14 S.  The inversion of codes is carried out by MRE elements 15-15, the outputs of which are connected to the neutral terminals 16-16 of two-way switches.  At coincidence typed in such an image-. . .  reference code with the code obtained on the M output tires of the individual subscriber console 14.  as a result of the survey, on all M.  the input 511 of the element AND is must be single negative potentials, and from its output to the input of the counter 1O the signal of the coincident signal is added, add. unit for the content of the counter Y.  If the codes at least in one of the M bits are mismatched, a zero potential will enter the corresponding input of the element And 2, and the unit will not be added to the contents of the counter 10.  In a sequential polling of the C subscribers, the block comparing the answers with the standard 8 works in the described manner M times, and the counter 1O will have a fixed number indicating that the number of the N subscribers has the same code as the reference one.  The polling cycle described is repeated up to () once, and each time the experimenter sets a new reference code and then reads the readings from the Yu counter.  Functioning of the block comparing answers with the reference when working with position codes.  In this mode, all the described equipment is disconnected from the input of the meter U, and the output of the multi-position switch 17 to M positions is connected to it via a toggle switch 19, the outputs of which are connected respectively to the M output buses of the individual subscriber consoles 14.  In addition, each of the M positions of the multi-position switch 17 corresponds to a certain (one of M) position of the code, the information content of which is analyzed.  In the case of a single code, a unit is added to the contents of the meter U, and with a zero code in this position this does not occur.  In a consecutive polling, block 8 comparing responses to standards works in the described manner N times, and a number is accumulated on the meter Yu, which shows how many of the N subscribers have a single code in this standard position.  The polling cycle described is repeated up to M times, and each time the experimenter sets a new reference code by switching the multi-position switch 17 to the next position and then reads the readings from the counter Yu.  This type of questioning is convenient, for example, when studying research institutes of communication in a team, when each subscriber can recruit several specific positions from M, thereby making the selection of certain team members according to a certain sign.  Then, for one polling cycle, it is determined how many subscribers have chosen a certain position, and the number of polling cycles can be up to M.  In the limiting case, when analyzing the cross-links in the team, the correlation is obvious.  The choice of such situations, as well as the determination of the optimal values of N and M under specific conditions, depends primarily on the size of the individual stations of the subscribers 14 and ensures their replacement by means of detachable connections 13.  The described block 8 for comparing responses with a standard is characterized by simplicity, reliability in operation and speed, as it does not contain triggers or other elements with feedback.  In order to facilitate coding of answers by subscribers, their monitoring and the elimination of possible subjective errors in the installation, it is provided that before each set of answers by subscribers, they reset 14 previously dialed codes on individual subscribers consoles.  For this, two installation operating modes are entered: Dial the code and Reset code As a result of subscriber manipulations in the Dial code mode, all individual subscriber consoles 14-14 must have a non-zero code, but in the Reset code-zero mode.  This is the basis of the principle of operation of the subscriber monitoring unit 12, which consists in the sequential analysis of subscriber codes to zero with the generation of an alarm signal in each of the alarm modes, stopping the reset, with indication of the number of the subscriber who performed the incorrect actions.  Work unit subscribers control 12.  Through one section 22 of a two-section three-position switch 22, the power supply circuit of one of the indicators from the power source 25 closes, causing the caption code or Reset code on the light banner 23, which is located in a visible place in the field of view of all subscribers.  Thus, the selected mode is brought to the subscribers, which can be duplicated by voice using sound-producing equipment (not shown).  In the case of a subscriber's zero code, the element on the M inputs provides a zero potential, which, in the Reset position, the code of the second section 22 of the two-section three-position switch 22 is input to the element OR 3, where it is perceived as a resolution potential, and the subscriber survey continues.  If among their codes there is a non-zero, then the inhibit potential is output to the element OR 3 in the form of a negative pulse, and the subscriber survey is stopped with indication by means of the pulse distributor 7 and the display unit 11 of the subscriber number that did not reset the code on its individual subscriber console 14 In Dial mode A two-part three-position code switch 22 connects the input of the element and L and 3 to the output of the element AND 20 at the M inputs through the element NO 21.  Therefore, the zero code causes the development of the inhibitory potential, and the questioning of the customers stops with an indication of the one that did not dial the answer on its individual subscriber console 14.  With non-zero codes, subscriber polling continues, since the inhibitory potential is not generated.  On average, the neutral position, the control unit of the subscribers 12 and the light transparency 23 are turned off, which can be done according to the desire of the experimenter.  When working with binary or positional codes, the subscriber monitoring unit 12 operates in the same way as described above, i.  e.  control automatically spreads to those and other codes.  The counter size of 1O depends on the number of N subscribers and can be defined as the nearest integer to the value (N –I).  The value of M and M is selected depending on the specific conditions and tasks of the study.  For example, with M 5, it is possible to poll subscribers' subscribers for a question when encoding with binary codes or for 1-3 questions in the case of positional codes, and it is enough to have meters of 5 bits of 1i.  At 3O, it is possible to study the mutual cross-links in the team to 30 people.  Increasing the number N, M in the latter case, in order to investigate more numerous teams, does not cause the device to become more complex, since it only increases the number of positions of the multi-position switch 17 and will need to be connected via detachable connections 13 to individual subscriber stations 14 with the corresponding number of two-position switches 26.  The display unit 11 provides an indication of all bits of the counter 10, M bits of the output of the individual remote controls of subscribers 14 on each of which there are numbers from 1 to N of the number of outputs of the pulse distributor 7, to which these individual remote controls of subscribers 14 are connected.  In this case, the readings of the pulse distributor 7 correspond to the current number of the polled subscriber.  Such an indication scheme is very cost-effective, especially for large K | .  For example, with and 5-bit counter 1O, there is a gain in equipment due to display elements just once.  Each of the individual remote controls bonuses 14 14 | contains (see  FIG.  4) on M two-position switches 26, -26-.  and separate 1 M diodes 27 - 27. ,  Structurally, the inductance 1 / M remote controls of subscribers 14 are made small-sized, with the possibility of placing them on the palm of one hand, so that it is possible to select and switch two-position switches 26-26 even by touch, while ensuring complete stealth of manipulation of subscribers and anonymity of those polls.  In order to disable individual subscriber stations of 14 absent subscribers and poll any number of them up to N inclusive, the design of the headset of individual subscriber stations 14 provides for the latter to be connected via detachable connections 13.  Claim 1.  A device for polling subscribers, containing a pulse generator, the output of which is connected through a series-connected element and a two-position switch, to the second input of which, via the first pushbutton switch, a zero potential bus is connected to the input of the pulse distributor, one output of which is connected through the serially connected second pushbutton switch and element LI is connected to the second input of the element; another output is connected to the first input of the 1-stage unit, and the remaining outputs are connected to the inputs of the corresponding The individual subscriber consoles, whose outputs of the same name are combined and connected to the corresponding inputs of the display unit and the response comparing unit with the reference, are outputted by the counter to the reference input unit through the counter to the corresponding input of the display unit, in order to improve speed, it contains the subscriber monitoring unit, the inputs of which are connected to the corresponding4 outputs of the individual subscriber stations, and the output connection 11 veins with second input element or 2. The device according to claim 1, wherein the subscriber control unit contains elements, a ViE element, a two-section three-pointer switch, a power source and a light transparency connected through one section of a two-section three-switch to the power source, the inputs of the And element are connected to to the corresponding inputs of the subscriber control unit, and its output through the parallel-connected element NOT and another section of the two-section three-position switch is connected to the output of the subscriber control unit. 3. The device according to claim 1, differing from the fact that it has a comparison unit 12 of answers with a standard contains NOT elements and two-position switches according to the number of inputs of a block comparing answers with a standard, a multi-position switch, an element and a toggle switch that is wired between the output of the response comparison unit with the standard and the output of the element and whose inputs are connected to the outputs of the corresponding two-way switches, one input of which is directly connected to the corresponding inputs of the comparison comparison unit, and the second through the corresponding elements NOT, the inputs the multi-position switch is connected to the corresponding inputs of the block comparing the answers to the standard, and its output is connected to the second input of the toggle switch. ig.1 FIG. 2 Fig.Z