JP3078892B2 - Comprehensive monitoring and control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated monitoring and control system including a plurality of systems including at least a human body detection system.

[0002]

2. Description of the Related Art As a conventional monitoring and control system, a plurality of terminals each having a unique address are connected to a base unit via a transmission line, and the base unit accesses the address data of a transmission signal. Set the address, individually access each terminal and give control data, let the terminal control the operation of the load, and show the operation status of the load from each terminal during the return signal period provided in the transmission signal In some cases, the monitoring data is returned, and the operation status of each load is centrally monitored by the master unit.

There is also a security system other than this type of system. In this crime prevention system, a plurality of sensors for detecting a human body are respectively arranged at necessary places, and when any of the sensors detects the human body, an alarm indicating that an intruder is present is issued. I have.

[0004]

However, conventional security systems are generally used only at night and not during the day. For this reason, it is demanded to use the security system for controlling other systems even in the daytime so as to effectively utilize the system and to reduce the overall system cost in combination with other systems.

[0005] The present invention has been made in view of the above-mentioned points, and it is an object of the present invention to use the security system for controlling other systems even in the daytime so as to effectively use the security system. An object of the present invention is to provide a total monitoring and control system that can reduce the total system cost in combination with a system.

[0006]

According to the first aspect of the present invention, in order to achieve the above object, a plurality of sensors as terminals each of which performs a human body detection and has a unique address, and a plurality of these sensors are provided. a base unit or Ranaru human body detection system which is connected by transmission lines of two-wire to determine the human body detection status of each sensor individually, the plurality of lighting fixtures, and the master unit or Ranaru illumination controlling lighting of the luminaire control also includes system and the least <br/> rather as at night interest information indicating a human body detection when detecting an intruder using a human body detection system as burglar
In the daytime, information indicating the human body detection status of each sensor is transmitted from the main unit of the human body detection system to the main unit of the lighting control system, and the main unit of the lighting control system The equipment is turned on.

In the above-mentioned comprehensive monitoring and control system, since the parent device of the human body detection system can individually determine the human body detection status of each sensor, it is possible to determine where a person is in accordance with the human body detection status of each sensor. Is determined by the master unit of the lighting control system, and lighting control can be performed according to the use state of the specific space. In order to cope with this, as described in claim 2, the master unit of the lighting control system is identified according to information indicating the human body detection status of each sensor provided from the master unit of the human body detection system. It is only necessary to determine the use state of the space and perform pattern control for collectively lighting control of a plurality of arbitrary lighting fixtures.

[0008] The invention of claim 3, multiple air conditioner,
And Bei example the air conditioning control system comprising a master unit which controls the operation of the air conditioner, during daytime from the base unit of the human body detection system
The base unit and base unit of the air-conditioning system of the lighting control system performs the transmission of information indicating the human body detection status of each sensor, irradiation
The main unit of the light control system turns on the corresponding lighting equipment
At the same time, the master unit of the air conditioning control system controls the operation of the corresponding air conditioner.

In the integrated monitoring and control system according to the third aspect of the present invention, since the parent device of the human body detection system can determine the human body detection status of each sensor individually, the human body detection is performed according to the human body detection status of each sensor. The master unit of the system or the master unit of the air-conditioning control system determines how many people are present in a specific space, that is, from the frequency of human body detection of each sensor, determines whether there are many or few people in a specific space. ,
It is possible to perform air conditioning control according to the number of people in a specific space. Therefore, in order to cope with this, Claim 4
As shown in, according to the information indicating the human body detection status of each sensor given from the parent machine of the human body detection system, whether the parent machine of the human body detection system or air conditioning control system has a large or small number of people in a specific space Judgment may be made, and the air conditioning level of each air conditioner may be variably controlled according to the judgment result.

[0010]

According to the first aspect of the present invention, a human body detection system used as a crime prevention system at night is used for detecting the presence of a human body in a specific space.
Automatic lighting control of lighting can be performed according to the human body detection status, the above security system is used for controlling other systems even in the daytime, and effective use is planned, and the security system is organically coupled with the lighting control system. Thus, the overall system cost is reduced.

[0011] In the present invention of claim 3, so as to perform also the automatic control of the air-conditioning in accordance with the human body detection situations, achieving effective utilization also using the security system to control the other system during the day, In addition, the security system is organically coupled with the air conditioning control system to further reduce the overall system cost.

[0012]

1 to 9 show an embodiment of the present invention. As shown in FIG. 1, the comprehensive monitoring and control system of the present embodiment
At least at night, a human body detection system A including a plurality of sensors 1 functioning as a security system, a lighting control system B for controlling lighting of a plurality of lighting fixtures 2, and an air conditioning control system for controlling operation of a plurality of air conditioners 3 It is constructed by combining a plurality of systems such as C. As other systems, a key management system D that manages the storage status of keys in the key box 4 and a sign system E that displays the usage status of a conference room, a reception room, and the like on a plurality of displays 5 are provided. I have. Note that the system configuration in FIG. 1 is merely an example, and it goes without saying that other systems may be combined.

[0013] The system A~E comprises a control device 6 to 10 including a CPU as each base unit, the transmission line L ₀ in the system A control device 6-10 each are each bus type
.. E are connected to a central control unit 11 composed of a CPU for performing overall monitoring control or signal transmission control. In the following description, the control devices 6 to 10 of each of the above systems will be described.
Are collectively referred to as a parent device.

The sensor 1, the lighting equipment 2, the air conditioner 3, the key box 4, and the display 5 have a function as a terminal of a so-called multiplex transmission system, and each has a unique address. . In the following description, when these devices are collectively called, they will be referred to as terminals. The setting of each unique address is performed by a dip switch or an E ² PROM provided in a portion functioning as a terminal.
And so on, and can be set or changed at any time.

[0015] Each of the above terminals is a respective system.
2-wire transmission line L₁~ L _FiveConnect with the parent device
Each terminal is individually accessed to control and operate the terminal.
It can monitor the crop condition. Here, each system
Transmission signal V sent from master unit of stems A to E to each terminal unit
_SIndicates the start of signal transmission as shown in FIG.
A pulse ST, mode data MD indicating a signal mode,
Address indicating the address (8 bits) of the terminal to be accessed
Data AD, load (in this embodiment, the terminal itself is negative
Control data CD indicating control contents for controlling the
Checksum data CS for detecting transmission errors and
Return signal period WT for setting the return waiting period from the terminal
Division of pulse width modulated double pole (± 24V)
It is transmitted as a multiplex signal.

Normally, the master unit sequentially transmits the transmission signal to each terminal unit to perform signal transmission. That is, when the master device controls the operation of a specific terminal device, the address of the corresponding terminal device is set in the address data AD of the transmission signal, and the transmission signal is sent to each terminal device. When the address set in the address data AD of the transmission signal coincides with its own address, each terminal fetches the transmission signal and reads the contents of the control data CD following the address data AD.
Then, it operates according to the contents of the control data CD. For example, in a lighting control system, turning on and off (including dimming control in some cases) of the lighting fixture 2 is performed, and in an air conditioning control system, operation and stop control of the air conditioner 3 (in this embodiment, the strength of the operation state is controlled). Is performed). Then, in the return signal period WT following the control data CD, the monitoring data indicating the operation status is returned to the master unit. For example, in the case of the human body detection system A, the control device 6 can determine the human body detection status of each sensor 1 from this monitoring data. In the key management system D, the key storage status of the key box 4 can be determined. The control device 7 can determine.

When controlling the operation of a plurality of terminals, the master unit variably sets the address data AD in accordance with the corresponding terminal, and controls the operation of the plurality of terminals in the same manner as described above. Are sequentially performed. By doing so, it is possible to centrally control the operation of the terminals in the master units A to E of each system and to centrally monitor the operation status. In this type of multiplex transmission system, when a terminal wants to urgently send a return signal to the master, as shown in FIG. 2, the terminal shown in FIG. By transmitting the interrupt pulse Vi, an interrupt request is made, and monitoring data and the like can be returned without selection from the master unit.

At this time, the master device that has received the interrupt pulse Vi sets the mode signal MD of the transmission signal to the interrupt address polling mode and transmits it to specify the interrupt request terminal. Then, when the interrupt request terminal is specified, the master sets the mode signal MD of the transmission signal to the monitoring mode, sets the address of the interrupt request terminal to the address signal AD, and sets the interrupt request terminal. Receive a return signal from. Upon receiving this return signal, the master unit sets the mode signal to the response mode and transmits the signal to the interrupt request terminal, stops the transmission of the interrupt pulse Vi from the interrupt request terminal, and ends the interrupt processing. I do.

The signal transmission for each of the systems A to E has been described above.
The master unit of each of the systems A to E is a terminal in the above-described signal transmission, and the central control unit 11 is a master unit. Similarly, signal transmission is performed by time division multiplexing. That is, in the case of the present embodiment, the entire system transmits information by multiplex transmission. However, in some cases, some systems may not perform multiplex transmission.

In the integrated monitoring and control system of this embodiment, the respective systems A to E are organically connected. For example, the monitoring result of the human body detection status of each sensor 1 by the human body detection system A is provided to the lighting control system B and the air conditioning control system C. The monitoring result of the human body detection sensor A is given to the sign system E. For example, when the monitoring result of the human body detection status of each sensor 1 by the human body detection system A is given to the lighting control system B and the air conditioning control system C as described above, the human body detection system A used as a crime prevention system at night is specified. It can be used for detecting the presence of a human body in space. In this way, the lighting control system B can perform automatic lighting control of the lighting fixture 2 according to the monitoring result indicating the human body detection status of the human body detection system A. In the air conditioning control system C, the air conditioner 3 can be automatically operated according to the monitoring result of the human body detection system A.

Incidentally, a plurality of sensors 1 of the human body detection system A are provided in a specific space, for example, for each room.
When the lighting apparatus 2 is turned on in accordance with the human body detection state of the sensor 1, that is, the lighting apparatus 2 in a predetermined area corresponding to the sensor 1 that is detecting the human body is turned on. The lighting fixture 2 is not turned on unnecessarily (so-called thinning-out lighting can be performed), and therefore, an energy saving effect can be expected. Further, the air conditioner 3 can be similarly operated to perform the thinning operation.

This will be described with reference to FIG. here,
An outer frame surrounding the entirety indicates a space to which the integrated monitoring and control system is applied, and each of the partitioned spaces a to f indicates a specific space such as a room. Then, in each of the specific spaces a to f,
A plurality of sensors 1 indicated by circles are arranged. Now, assuming that a human body is detected by the sensor 1 indicated by oblique lines in the space c in the figure, the lighting fixture 2 corresponding to the sensor 1 is turned on. At the time of this lighting, pattern control for collectively lighting control of a plurality of arbitrary lighting fixtures may be used. For example, when the output of any one of the sensors 1 is obtained, a plurality of lighting fixtures 2 of only a predetermined block in a specific space are used.
, Or a pattern control of alternately lighting the lighting fixtures 2. When there are a plurality of air conditioners 3 in this space, the air conditioners 3 are operated in a state where air conditioning in the area where the human body is detected by the sensor 1 can be efficiently performed. You can also.

Further, when a plurality of sensors 1 are arranged in a specific space, the number of persons existing in the specific space based on the human body detection status of each sensor 1, that is, the number of sensors 1 It is possible to determine whether there are many or few people to do. Therefore, depending on the number of persons present in the specific space, the air conditioner 3
May be variably controlled.
In this way, comfortable air conditioning according to the number of people can be performed.

Here, a specific description of the human body detection system A in the case where the function of judging the number of persons is provided in the control device 6 will be described below. The sensor 1 includes a human body sensing unit 1a for sensing a human body as shown in FIG. 4 and a terminal function unit for converting a sensing signal into a transmission signal and performing signal transmission with the control device 6 by the above-described time division multiplex transmission. 1b. The human body detecting section 1a also has a function of performing a sensing signal process. As shown in FIG. 5, the terminal function unit 1b includes a detection unit 31 for detecting a sensing signal,
1, a transmission unit 32 for transmitting a signal to and from the control device according to the output of the control unit ₁ , a power supply unit 33 for generating a constant voltage from a transmission signal superimposed on the transmission line L1 and supplying power to each unit as a power source,
And a current limiting circuit 34 for limiting the current supplied to the human body sensing unit 1a.

As shown in FIG. 6, the control device 6 reads the monitoring data from each sensor 1 and determines the human body detection status of each sensor 1. Then, the number of times that the human body detection output of each sensor 1 is obtained is counted. That is, the number of persons existing in the specific space is determined based on this count. Then, the counting result is sent to the control device 8 of the air conditioning control system C as output data. With this configuration, the air conditioning control system B can be changed according to the number of persons existing in the specific space.
Thus, the air conditioning level of the air conditioner 3 can be variably controlled.

Incidentally, the human body detection sensor A and the lighting control system B are organically connected even at night. That is, as shown in FIG. 1, the lighting control system B incorporates various threatening devices 13 and video cameras 14 in addition to the lighting fixture 2.
When an intruder is detected in the above, the intruder is intimidated using the intimidating device 13 and the lighting apparatus 2 is turned on to photograph the intruder with the video camera 14.

In this way, even during the daytime, the human body detection system A as the crime prevention system can be used for controlling other systems, so that the system can be effectively used. In addition, by organically coupling the human body detection system A to another system, the overall system cost can be reduced. Further, the monitoring result of the human body detection sensor 6 in the daytime is also used in the sign system E. In the sign system E, for example, the usage status of a conference room or a reception room is displayed, and the human body detection sensor 6 receives the human body detection status in the conference room or the reception room as the usage status. Displays the usage status of the reception room.

By the way, in the case of the conventional security system, the wiring between the control device 6 and each sensor 1 needs to be a star wiring in order to identify and determine the human body detection situation of each sensor 1. Therefore, the workability was deteriorated. However, in the case of the present embodiment, the two-wire transmission line L
_{Since the} human body detection system is constructed by the time-division transmission method using No. 1, the human body detection status of each sensor 1 can be identified and determined without using star wiring, and the workability is improved.

The operation of the human body detection system A of this embodiment as a crime prevention system at night will be described below. Conventional security systems have a high false alarm rate. Therefore, in this type of conventional security system, an attempt has been made to reduce the false alarm rate by increasing the function of each sensor 1. However, there is a limit in increasing the function of each sensor 1 as described above, and there is a problem that the cost is increased.

In order to improve this point, in the present embodiment, the following method is used to reduce the false alarm rate as a security system. When this method is adopted, as described above, a plurality of sensors 1 are provided in a specific space, for example, each room.
Need to be placed. Here, each human body detection area of each sensor 1 is shown by a square area in FIG. Then, the inside of the room is further divided into a plurality of regions. That is, the area facing the door 20 or the window 21 (indicated by a diagonally downward-sloping line in the figure) is defined as a first warning area, and the area therebetween (indicated by a diagonally downward-sloping line in the figure) is a second security area. Further, a region (indicated by a diagonal line formed by a dashed line in the lower left direction) c away from the door 20 and the window 21 is defined as a third warning region, and a region farthest from the door 20 and the window 21 (in FIG. D, which is indicated by a diagonal line formed by a dashed-dotted line (lower right), is defined as a fourth warning area.

First, when a human body detection output is obtained along the route from the area A to the area C or the area D via the area B, it is determined that the human body detection output in this case is due to an intruder. When the same sensor 1 continuously obtains a human body detection output a plurality of times in each of the regions A to D, it is determined that the output is also caused by an intruder. Here, for example, if the human body detection output is obtained in the area c without passing through the area b from the area a, in this case, the operation of monitoring the subsequent human body detection status without immediately determining that the person is the intruder is performed. continue. In this way, it is possible to determine whether or not an intruder is comprehensive based on the human body detection status of the plurality of sensors 1, and therefore, it is possible to reduce the false alarm rate even if the performance of each sensor 1 alone is not high.

In the case where the area d in FIG. 7 is an area that requires particular caution, if a human body detection output is obtained even once in this area d, it is determined that an intruder exists. It is preferable to do so because it is possible to prevent unreporting in a particularly important caution area. By the way, the following method is adopted as a method of sending the human body detection status in each of the above-mentioned alert areas A to D to the control device 6 of the human body detection system A. For example, assuming that a return signal of a plurality of bits is transmitted during the return signal period in the above-described transmission signal, the upper few bits of the return signal are used as bits indicating the type of each sensor 1, and the lower several bits belong to the own device. Are shown. For example, the area A is "00",
The area b is “01”, the area c is “10”, and the area d is “1”.
When the sensor 1 detects a human body, the monitoring data is returned to the control device 6 when accessed by the control device 6. If no human body is detected, the monitoring data is not returned, or monitoring data indicating that no human body is detected is returned.
In the above-described case, the controller 6 sequentially accesses each sensor 1 sequentially at night to keep an alert, but the sensor 1 from which the human body detection output is obtained is used.
May send an interrupt request to the control device 6 and return the monitoring data.

By doing so, it is not necessary to store in the control device 6 what area each sensor 1 is installed in, and the configuration and processing of the control device 6 can be simplified. In addition, there is an advantage that the alert area to which each sensor 1 belongs and the type of the sensor 1 can be arbitrarily changed. By the way, it is preferable to use, for example, a pyroelectric sensor using a pyroelectric element (PIR) as the sensor 1 because the human body can be satisfactorily detected in its own human body detection area. In addition, a sensor using light or ultrasonic waves may be used in addition to the pyroelectric sensor.

Here, as the optical sensor, for example, in order to detect a human body in a specific area, an optical sensor that includes a light emitter and a light receiver and generates a human body detection output when light from the light emitter is cut off is used. For detecting the door 20, the window 21, or the area near the wall, an element that emits and receives light to a wall or the like and detects a light receiving level or a change thereof to generate a human body detection output may be used.

In the case of the above optical sensor, a so-called linear human body detection is performed. For example, in the case of using an ultrasonic sensor, a three-dimensional human body detection is performed in substantially the same manner as in the case of a pyroelectric sensor. It is possible. To further reduce the false alarm rate, a composite sensor combining the above various sensors may be used. In addition, a magnet sensor is installed on the door 20 and the window 21, and a sensor 1 that monitors the opening / closing state of the door 20 and the window is provided.
May be incorporated in the security system.

The human body detection status of the human body detection system A at night is sent to the central control unit 11 in real time. Then, when the intruder is detected by the human body detection system A, the central control device 11 receives the output via the control device 6 and outputs the result to the outside via the output device 12. In this case, for example, the output device 12 sends an external notification via a dedicated telephone line or a public telephone line, or makes an emergency call to a security company. It should be noted that it is preferable to be able to notify the security company in this way, because the number of personnel required for security can be reduced.

In the above case, the case where an intruder is detected from the intrusion state has been described. However, this is used in reverse (in some cases, the monitoring area is expanded) to determine the route from which the last exiter exits. Is also possible. In the above case, the description has been given of the case of a comprehensive monitoring and control system in which, for example, the entire building is centrally monitored and controlled. For systems,
As shown in FIG. 8, a control device 19 may be provided for each area where each tenant has moved in, and the control device 19 may collectively monitor and control the terminals.

Further, the lighting fixture 2 and the air conditioner 3 whose operation is controlled in accordance with the output of the sensor 1 during the daytime may be incorporated in the human body detection system A as shown in FIG. In the human body detection system in this comprehensive monitoring and control system, a light emitting device 13a, a speaker 13b, and a video camera 14 as a threatening device 13 for performing a threat at night are also integrally incorporated, and further, switching between day and night is performed. Timer 18 for measuring time and this timer 18
A specific key box 4 which is required to make it impossible to take out the key in the output of the above is also integrated. Further, in this comprehensive monitoring and control system, the transfer output system F is provided separately from the central control device 11, so that the transfer output can be sent to the central monitoring room.

[0039]

According to the first aspect of the present invention, as described above, a plurality of sensors as terminals each of which detects a human body and has a unique address, and the plurality of sensors are connected by a two-wire transmission line. by comprising at least a base unit or Ranaru human body detection system for determining a human body detection status of each sensor individually, the plurality of lighting fixtures, and a base unit or Ranaru lighting control system that controls lighting of the luminaire, At night, if a human body detection system is used for crime prevention and an intruder is detected
Controls the lighting control system using information indicating human detection.
In the daytime, the main unit of the human body detection system transmits information indicating the human body detection status of each sensor to the main unit of the lighting control system, and the main unit of the lighting control system turns on the corresponding lighting equipment. The human body detection system used as a security system at night is used to detect the presence of a human body in a specific space, and automatic lighting control can be performed according to the human body detection status. For effective use, and the security system can be organically coupled to the lighting control system to reduce the overall system cost.

In the invention of claim 2, as described above,
According to the information indicating the human body detection status of each sensor provided from the parent device of the human body detection system, the parent device of the lighting control system determines the use status of the specific space, and collectively turns on a plurality of arbitrary lighting fixtures. Since such pattern control is performed, it is possible to prevent waste of turning on the illumination even when no one is present, thereby achieving energy saving.

[0041] Further, as described above in the invention of claim 3, example Bei multiple air conditioner, and the air conditioning control system comprising a master unit which controls the operation of the air conditioner, during daytime human body detection system performs transmission of the master unit and the information on the base unit of the air conditioning control system showing the human body detection state of each sensor in the lighting control system from the base unit, the irradiation of the master unit of the illumination control system corresponds
With lighting the luminaire, since the base unit of the air conditioning control system formed by the operation control corresponding to the air conditioner, even perform automatic control of the air-conditioning in accordance with the human body detection situations, the security system of the other daytime system The system can be used effectively for control, and the security system can be organically coupled to the air-conditioning control system to further reduce the overall system cost.

Further, according to the invention of claim 4, as described above, according to the information indicating the human body detection status of each sensor provided from the parent machine of the human body detection system, the parent body of the human body detection system or the air conditioning control system is provided. The air conditioning level of each air conditioner is variably controlled according to the result of determining whether the number of people in the specific space is large or small, so a human body detection system that can individually determine the human body detection status of each sensor Determine how many people exist in the specific space according to the human body detection situation, that is, determine whether there are many or few people in the specific space from the human body detection frequency of each sensor, etc. It is possible to perform air conditioning according to
For this reason, efficient air conditioning becomes possible.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram of an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing an example of a signal transmission method of the above system.

FIG. 3 is an explanatory diagram of a method of performing lighting control or air conditioning control using a human body detection system for human body detection in the daytime.

FIG. 4 is a configuration diagram showing a specific configuration of a human body detection system.

FIG. 5 is a configuration diagram showing a specific configuration of a terminal function unit of the sensor.

FIG. 6 is a flowchart showing an operation of the control device of the human body detection system for determining whether the number of people is large or small.

FIG. 7 is an explanatory diagram of a method for alerting an intruder of the human body detection system.

FIG. 8 is a system configuration diagram when the present invention is applied to a small-scale system.

FIG. 9 is a system configuration diagram when the configuration of the human body detection system is different.

[Explanation of symbols]

A human body detecting system B lighting control system C air conditioning control system L ₁ ~L ₃ transmission line 1 sensor 2 luminaires 3 air conditioner 6-8 controller

Continuation of the front page (56) References JP-A-2-116999 (JP, A) JP-A-57-165998 (JP, A) JP-A-60-181530 (JP, A) , U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G08B 13/00-29/00 H04Q 9/00 F24F 11/02 H05B 37/00

Claims (4)

(57) [Claims] 1. A plurality of sensors as terminals each of which performs a human body detection and a unique address is set, and the plurality of sensors are connected by a two-wire transmission line to individually determine a human body detection state of each sensor. a base unit or Ranaru human body detection system for a plurality of lighting fixtures, and at least a base unit or Ranaru lighting control system that controls lighting of the luminaire, night using human body detection system as burglar Intrusion
When a person is detected, the information
In the daytime, the main unit of the human body detection system transmits information indicating the human body detection status of each sensor from the main unit of the human body detection system to the main unit of the lighting control system, and the main unit of the lighting control system turns on the corresponding lighting equipment during the daytime A comprehensive monitoring and control system characterized by being made to operate. 2. The lighting control system according to claim 2, wherein the master of the lighting control system determines a use state of a specific space in accordance with information indicating a human body detection situation of each sensor provided from the master of the human body detection system. 2. The comprehensive monitoring and control system according to claim 1, wherein pattern control is performed to control lighting of the appliances collectively. Wherein multiple air conditioners, and e Bei the air conditioning control system comprising a master unit which controls the operation of the air conditioner, the day between the master unit of the illumination control system from the base unit of the human body detection system
And a human body detection status of each sensor
Information about the situation , and the main unit of the lighting control system
2. The comprehensive monitoring and control system according to claim 1, wherein the corresponding lighting fixture is turned on, and the master unit of the air conditioning control system controls the operation of the corresponding air conditioner. 4. A system according to claim 4, wherein said main body of said human body detection system or said main body of said air conditioning control system has a large number or a small number of persons in a specific space according to information indicating a human body detection state of each sensor provided from said main body of said human body detection system. 4. The comprehensive monitoring and control system according to claim 3, wherein a judgment is made and the air conditioning level of each air conditioner is variably controlled according to the judgment result.