KR101765033B1 - LED lighting of Parking lot - Google Patents

Abstract

The present invention relates to a parking lot light which is turned on by the receiving sensitivity of an RF sensing signal. More specifically, the parking lot light enables individual control of dimming of another adjacent LED parking light from a standby mode brightness level to a set maximum brightness level when a built-in object sensor in an LED parking light senses an object and generates a signal. As a result, LED parking lights installed in an underground parking lot can be individually turned on and off in an area where the lights are required to be turned on and off, thereby reducing waste of electric power. In particular, when an LED parking light is replaced, only a physical replacement operation is required to perform turning on and off the light by automatically detecting a vehicle or person without separate setting and registering work, so safety is ensured.

Description

{LED lighting of Parking lot} that is turned on by receiving sensitivity of RF detection signal,

The present invention relates to a parking lot that is illuminated by the reception sensitivity of an RF sensing signal. In particular, when an object detection sensor incorporated in an LED parking lot detects an object and generates a signal, And a parking lot that is illuminated by the reception sensitivity of the RF sensing signal which enables the lighting and the lighting to be automatically detected by detecting a vehicle or a person by performing individual dimming control at the level of the maximum brightness set at the level.

In recent years, there has been a serious problem of power shortage irrespective of the seasons. In order to encourage the reduction of energy consumption, many efforts have been made to reduce energy, such as enforcing the energy efficiency rating system on buildings. But it is replaced by LED lighting with high energy consumption efficiency due to low power consumption and long life span.

It is common to have underground parking lots in almost all newly built apartments as well as large buildings. The best energy saving means is to turn off unnecessary lights. However, in case of underground parking lots, However, in the area where the brightness is below a certain level or the lighting is turned off, since the security camera does not perform the normal function, the normal camera shooting There is a problem in that unnecessary energy consumption is generated because it is necessary to maintain a constant illuminance at all times irrespective of presence or absence of a person or vehicle in the underground parking lot.

A control system of a proposed underground parking lot parking lot and the like for solving the above problems will be briefly described with reference to FIG.

That is, a sensor unit 2 for sensing a moving object of a person or a vehicle, an image capturing unit 4 for capturing an image of the movement of an object and outputting a video signal, a sensing signal of the sensor unit 2, A system control unit 3 for outputting a control signal by executing a built-in algorithm according to the motion of the moving object with the video signal of the system control unit 3 and the LED constant light 5 installed in the underground parking system according to the control signal of the system control unit 3, A switching section 12 for turning on or off the LED indicator lamp 6 and the LED parking light 7, a voltage / current control section 8 for controlling the applied voltage and current, A storage device 10 for storing the video signal outputted from the video output section 9, a monitor 10 for displaying the video signal outputted from the video output section 9, (11).

However, in order to maintain the illuminance of the underground parking lot at a predetermined level or higher, the control system (system) does not dimming the illumination lamp to control the illuminance, (6) and LED parking light (7). In order to maintain the illuminance of the underground parking lot at a predetermined level or more, there is a problem that the LED always lights up (5) (6), LED parking lights (7) indicating parking positions, etc. Since various kinds of lights are installed and various sensors are installed, the control device itself is complicated, and installation and maintenance There was a problem that it was expensive.

In addition, it is possible to illuminate only the LED lights 5 such that the illuminance is maintained at a level lower than a normal level, and when the vehicle or a person enters the underground parking lot, When all the LED parking lights (7) installed in the underground parking lot (7) are turned on or off when the LED parking light (7) is turned on or off, As shown in FIG. 3, by using a control method for lighting or turning off the light sources.

That is, when the vehicle enters the underground parking lot as shown in FIG. 2, any one of the infrared sensor, the motion sensor, and the parking area sensor in FIG. 1 installed in the underground parking lot senses the sensed signal. 3).

The system control unit 3 controls the switching unit 12 to turn on the LED parking light group A1 adjacent to the position of each sensor to which the vehicle detection signal is transmitted so that all the LEDs The parking light 7 is turned on.

Therefore, if the vehicle makes a continuous movement from right to left in the figure, as shown in Fig. 2, the group of LED parking lights shown in Fig. 3 is successively turned on with A1, A2, and A3.

However, as described above, when the LED parking lights 7 are grouped into groups such as A1, A2, A3 .... so as to control the lighting and the extinguishing, the LED parking lights 7 are turned on at the same time, Waste of electric power can be caused.

In addition, when the LED parking light 7 is replaced, each LED parking light 7 must be controlled by the system control unit 3 after being incorporated into the LED parking light group, A procedure for registering and setting the IDs in the system control unit 3 is required after the respective IDs are assigned to the LED parking lights 7, .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a lighting apparatus and a lighting apparatus, which are capable of individually lighting and turning off LED lamps installed in an underground parking lot, , And LED parking, it is possible to detect the vehicle or the person automatically by only the physical replacement operation without the separate setting and registering work, and it is possible to automatically turn on and off so that the RF detection And a parking lot which is illuminated by the reception sensitivity of the signal.

According to an aspect of the present invention, there is provided an object detecting apparatus comprising: an object detecting sensor for detecting a motion of an object to generate a signal; When an object detection signal is generated from the object detection sensor 102, the RF transmitter 104a transmits an RF detection signal to the outside, an RF receiver 104b receives an RF detection signal from the outside, (Distance) detector 104c for detecting the reception sensitivity (intensity) of the RF detection signal received by the RF reception module 104b; When a signal is generated by the object detection sensor 102, the RF transmitter 104a wirelessly transmits an RF detection signal, an object detection signal generated by the object detection sensor 102 is received, When the reception sensitivity of the RF sensing signal detected by the sensing section 104c is stronger than or equal to the preset intensity, the LED driving section 106 is controlled to dim the LED lighting light 108 to the brightness set when the object is sensed, Or when the reception sensitivity of the RF detection signal detected by the RF reception sensitivity (distance) detecting unit 104c is lower than the set intensity, the LED driving unit 106 is controlled by the LED driving unit 106 after a lapse of a predetermined time, A control unit 110 for controlling the brightness of the display unit to a predetermined brightness; The brightness of the LED lighting lamp 108 referenced by the controller 110 in the standby mode, the maximum brightness of the LED lighting lamp 108, the reception sensitivity of the RF sensing signal for dimming the LED lighting lamp 108 to the maximum brightness Distance sensing) signal is stopped or the receiving sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is received weaker than the set intensity, and the dimming And a memory unit (112) for storing information on an elapsed time for switching the controlled LED lighting lamp (108) to brightness in a standby mode when no object is detected. And a parking lot that is illuminated by sensitivity.

The brightness of the LED illuminating lamp 108 in the standby mode, the maximum brightness of the LED illuminating lamp 108, and the receiving sensitivity (distance sensitivity) of the RF sensing signal for dimming the LED illuminating lamp 108 to the maximum brightness Information or object detection signal is stopped or the receiving sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is received weaker than the set intensity, and the LED is controlled to be dimmed to the brightness at the time of object detection And a remote controller setting unit 114 for setting the information of the elapsed time for switching the illumination lamp 108 to the brightness in the standby mode when no object is detected.

Here, the strength of the reception sensitivity (distance sensitivity) of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is determined by the RF transmitting unit 104a of one of the RF modules 104, It is preferable to set the distance from the RF receiving unit 104b of the base station 104 to the base station.

In addition, the remote controller setting unit 114 preferably receives and sets a signal transmitted from a remote controller.

The controller 110 may control the maximum brightness of the LED illuminating lamp 108 to be differently dimmed according to the receiving sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c .

In the present invention, an ID is assigned to all LED parking spaces installed in an underground parking lot, and a control system such as a parking lot of an underground parking lot, The object detection sensor incorporated in any one of the LED parking lights generates a signal to detect an object, so that adjacent LED parking lights are also individually switched to the maximum brightness level set at the brightness level in the standby mode By the dimming control being performed, installation and management of the control system such as the parking lot of the underground parking lot can be performed smoothly and smoothly, so that installation and management costs are reduced.

In addition, when a signal is generated from the object detection sensor, an RF detection signal is transmitted from the LED parking light, and even if the RF detection signal is received at the LED parking space installed in the parking lot, Accordingly, it is possible to set the LED to be lit up or excluded from the lighting control accompanied with the LED parking light which is lit at the maximum brightness by recognizing the object for the first time. Therefore, according to the area inside the underground parking lot, In particular, the operation mode of the LED parking system installed on the ceiling can remotely control the remote con- figuration unit, and thus the management control is very easy.

1 is a block diagram showing a general configuration of a control system such as a parking lot of a conventional underground parking lot.
FIG. 2 is a plan view of a parking lot of a conventional underground parking lot; FIG.
FIG. 3 is a schematic view showing a mounting position and a lighting group or a light-off group of LED parking lights installed in a parking lot of a conventional underground parking lot;
FIG. 4 is a block diagram showing the configuration of a parking lot or the like illuminated by reception sensitivity of an RF sensing signal according to the present invention. FIG.
5 is a block diagram showing a general configuration of a control system such as a parking lot of an underground parking lot to which a parking lot or the like is applied according to the present invention.
6 is a view showing an operation state of a control system such as a parking lot of an underground parking lot to which a parking lot or the like is applied according to the present invention.
FIG. 7 is a view showing an operation state of a control system such as a parking lot of an underground parking lot to which a parking lot or the like is applied according to the present invention. FIG.

The configuration and operation of the present invention will be described with reference to FIGS. 3 to 7 below.

The parking light (hereinafter referred to as the LED parking light 100) according to the present invention may be applied to a control system such as a parking lot of an underground parking lot, which is installed and operated in the past, Control system ", but in some cases, it is possible to detect a person or a vehicle under a condition that a separate" control system such as a parking lot of an underground parking lot "is not provided and turn on or off the LED parking light 100 It can be installed and installed as a purpose.

The LED parking light 100 includes an object detection sensor 102, an RF module 104, a control unit 110, a memory unit 112, and a remote controller setting unit 114.

First, the object detection sensor 102 generates a signal when a motion of an object such as a person or a vehicle is sensed. The distance and the range for detecting the object recognition and motion can be variously changed according to the designer's intention. Ready-made products are used.

The RF module 104 includes an RF transmitter 104a, an RF receiver 104b, and an RF receiver sensitivity (distance) detector 104c.

When the object detection sensor 102 detects an object and generates an object detection signal, the RF transmitter 104a transmits an RF detection signal indicating that an object has been detected according to the control of the controller 110, And the RF receiving unit 104b receives the RF detection signal transmitted from the RF transmitting unit 104a of the LED parking light 100 located at the remote location.

The RF reception sensitivity (distance) detection unit 104c detects the reception sensitivity or the reception intensity of the RF detection signal received by the RF reception unit 104b, and transmits the detection sensitivity or the reception intensity to the control unit 110 to be followed.

The control unit 110 controls the LED driving unit 106 to turn on the LED lighting lamp 108 at the maximum brightness and transmit the RF power to the RF sensing unit 110. [ Controls the RF transmitter 104a of the module 104 to wirelessly transmit the RF detection signal and propagates that the object is detected by the object detection sensor 102. [

The controller 110 receives the RF detection signal transmitted from the RF transmitter 104a of the LED parking light 100 located at the remote location and transmits the RF reception sensitivity Distance control unit 104c controls the LED driving unit 106 according to the reception sensitivity of the RF sensing signal to maintain the LED lighting lamp 108 in brightness or dimming control in the standby mode.

That is, if the reception sensitivity of the RF detection signal detected by the RF reception sensitivity (distance) detection unit 104c is equal to or greater than a set reference value (for example, 70% reception sensitivity), the LED driving unit 106 is controlled to control the LED illumination light 108 And if the reception sensitivity of the RF sensing signal detected by the RF reception sensitivity (distance) detector 104c is less than a set reference value (for example, reception sensitivity 70%), the LED driving unit 106 And maintains the LED illumination light 108 in brightness in the standby mode or controls the dimming thereof.

At this time, in order to control the LED driving unit 106 to switch or maintain the LED lighting lamp 108 to the maximum brightness, a signal indicating that an object is sensed by the object sensing sensor 102 is periodically transmitted to the control unit 110 The receiving sensitivity of the externally received RF sensing signal detected from the RF receiving sensitivity (distance) detecting unit 104c should be equal to or higher than the set reference value.

Also, the control unit 110 determines whether the object sensed by the object sensing sensor 102 is not transmitted, and the reception sensitivity of the externally received RF sensing signal detected from the RF receiving sensitivity (distance) The controller 100 controls the LED driving unit 106 to dim the LED lighting lamp 108 to brightness in the standby mode.

Here, the controller 110 controls the LED illuminating lamp 108 to be turned on at a maximum brightness by controlling the brightness of the LED illuminating lamp 108 in the standby mode, And controls the controller 110 to reset the set elapsed time required for the standby mode when an RF detection signal of a value higher than the reception sensitivity is transmitted.

In the meantime, the memory unit 112 stores the brightness of the LED lighting lamp 108 controlled by the controller 110 in the standby mode, the maximum brightness of the LED lighting lamp 108 when the object is detected, (Distance sensitivity) intensity of the RF sensing signal for dimming to the maximum brightness, information on the reception sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c, Information of the elapsed time for switching the LED lighting lamp 108, which is dimming controlled to the brightness at the time of object detection after being received weakly than the set intensity, to the brightness in the standby mode when no object is detected is stored.

As described above, the information stored in the memory unit 112, that is, the brightness of the LED lighting lamp 108 in the standby mode, the maximum brightness of the LED lighting lamp 108, the dimming of the LED lighting lamp 108 to the maximum brightness, (Distance sense degree) intensity of the RF sense signal for detecting an RF signal, an object detection signal is stopped or the reception sensitivity of the RF sense signal detected by the RF reception sensitivity (distance) detection unit 104c is received The information of the elapsed time for switching the LED illumination light 108 whose dimming is controlled to the brightness at the time of object detection to the brightness at the time of the standby mode when no object is detected is set to the remote controller setting section 114 The setting can be changed.

In addition, the remote controller setting unit 114 receives the signal transmitted from the remote controller, and can change the setting or the setting. At this time, the set information or data is stored in the memory unit 112.

The strength of the reception sensitivity (distance sensitivity) of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is determined by the RF transmitting unit 104a of one of the RF modules 104, 104 can be changed in various ways based on the distance from the RF receiving unit 104b.

In addition, the controller 110 may control the maximum brightness of the LED illuminating lamp 108 to be differently dimmed according to the receiving sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c have.

That is, when the reception sensitivity of the RF sensing signal is 70%, the brightness of the LED lighting lamp 108 is dimmed to 70%, and when the reception sensitivity of the RF sensing signal is 80%, the brightness of the LED lighting 108 is 80% The brightness of the LED lighting lamp 108 is dimmed to 90% brightness when the reception sensitivity of the RF sensing signal is 90%, and the brightness of the LED lighting lamp 108 is controlled when the reception sensitivity of the RF sensing signal is 100% It is also possible to control the dimming to 100% brightness.

FIG. 5 is a block diagram showing an overall system configuration in which the LED parking light 100 according to the present invention is applied to a control system such as a parking lot of an underground parking lot. As shown in FIG. 5, LED lamps, etc. can be replaced with the LED parking light 100 according to the present invention, which can be variously changed according to the designer's intention, so the present invention is not limited thereto.

Hereinafter, an operation state of a parking lot or the like illuminated by the receiving sensitivity of the RF sensing signal according to the present invention will be described with reference to FIGS. 6 and 7. FIG.

6, when the vehicle enters the inside of the underground parking lot from the right to the left in the figure, the object detection sensor (not shown) of the A1-LED parking light 100, B1-LED parking light 100 102) detects the vehicle entering the underground parking lot first.

At this time, the dml object sensor 102 of the A1-LED parking light 100 and the B1-LED parking light sensor 100 senses the vehicle and generates a signal to generate the A1-LED parking light 100, B1-LED And the control unit 110 of the A1-LED parking light 100 and the B1-LED parking light 100 respectively control the LED driving unit 106 to control the LED lighting unit LED parking light 100 and the LED light source 100 by wirelessly transmitting the RF detection signal through the RF transmitter 104a of the RF module 104 while controlling the dimming of the LEDs 108 to the maximum brightness set in the memory unit 112, B1-LED It propagates that an object is detected in the parking light 100. [

Here, since the vehicle entering the underground parking lot has entered the object detection area of the object detection sensor 102 of the A1-LED parking light 100 and the B1-LED parking light 100 as shown in FIG. 6 Only the A1-LED parking light 100 and the B1-LED parking light 100 are dimmed and controlled to the maximum brightness by the signal of the object detection sensor 102. [

However, in the present invention, after the corresponding LED parking light 100, in which a signal is generated by the object detection sensor 102, is dimmed and controlled to the maximum brightness set in the memory unit 112, The parking light 100 can also be dimmed and controlled to the maximum brightness set in the memory unit 112. [

6, when the RF transmission unit 104a of the A1-LED parking light 100 and the B1-LED parking light 100 transmits an RF detection signal, the RF light of the adjacent LED parking light 100 LED receiving unit 104b receives the RF detection signal and outputs the LED illumination light 108 to the maximum brightness stored in the memory unit 112 in conjunction with the A1- LED parking light 100 or the B1- By controlling the dimming, the plurality of LED parking lights 100 can be dimmed and controlled without specifying a separate group.

Here, even though the RF sensing signal transmitted from the A1-LED parking light 100 and the B1-LED parking light 100 is received by the other LED parking light 100, all the LED parking lights that receive the RF sensing signal 100 are not dimming-controlled.

6 and 7, when an effective object detection area for generating a signal when an object is sensed by one LED parking light 100 and an RF sensing signal is transmitted from one LED parking light 100, The LED parking light 100 for transmitting the sensing signal and the distance for receiving the RF sensing signal with the effective receiving sensitivity are shown.

That is, even if all the LED parking lights 100 receive the RF detection signal in the A1-LED parking light 100 and the B1-LED parking light 100, The reception sensitivity of the RF sensing signal received by each LED parking light 100 is different according to the distance, and the reception sensitivity of the RF sensing signal of the LED lighting signal Only the parking light 100 can control dimming of the LED lighting lamp 108 with the maximum brightness.

As a result, when the effective reception sensitivity of the RF sensing signal set in the memory unit 112 is set to 70%, the A1-LED parking light 100 and the B1-LED parking light 100 become maximum A2, A3, and A4-LED parking lights (100) and B2, B3, B4-LED parking lights (100) receiving the RF detection signal transmitted with dimming control with brightness at a reception sensitivity of 70% .

As described above, when dimming is controlled to the maximum brightness by detecting an object in any one of the LED parking lights 100, the adjacent LED parking lights 100 are simultaneously dimmed and controlled in conjunction with the LED parking lights 100, 100) is set as a group so that it is not necessary to uniformly control the dimming.

 7, an operation state occurs when the vehicle moves from the state shown in Fig. 6 to the left side in the drawing. As shown in Fig. 7, A3 to A7-LED parking lights 100 and B3 to B7- The parking light 100 may sense dimming control of the LED lighting lamp 108 at the maximum brightness by sensing the vehicle directly and transmitting the RF sensing signals to each other, Since the distance corresponds to 100% of the reception sensitivity, the LED illumination light 108 is dimmed and controlled to the maximum brightness.

On the other hand, in the A1 to A2-LED parking lights 100, the A8 to A9-LED parking lights 100, the B1 to B2-LED parking lights 100, and the B8 to B9- (70% ~ 100%) of the RF detection signal, the LED parking lights 100 can not receive the RF sensing signal at the maximum brightness Lt; / RTI >

The A10-LED parking light 100 and the B10-LED parking light 100 shown in FIG. 7 are not the distances capable of sensing the vehicle, and the distance from the LED parking light 100, which senses the object, The signal is not received at the effective reception sensitivity, so that the dimming control state is maintained with the brightness in the standby mode.

In the meantime, according to the present invention, when an object is directly detected as described above and the LED illumination light 108 is not dimming-controlled, that is, when receiving the RF sensing signal with effective reception sensitivity, the LED illumination light 108 is dimmed In the case of control, it is preferable that the maximum brightness can be adjusted according to the reception sensitivity so as to reduce waste of electric power.

That is, when the set value of the effective reception sensitivity for dimming control of the LED parking light 100 at the maximum brightness is 70% to 100%, the LED parking light 100 receiving the RF detection signal with 70% LED lighting (80%), 90% (100%), and LED lighting (100%) received 80%, 90% and 100% Dimming control can be performed with brightness so that waste of power can be reduced.

As described above, the dimming control of the LED parking light 100 to the brightness in the standby mode after the dimming control of the maximum brightness is performed is effective in a state in which the LED parking light 100 can not detect an object in any one of the LED parking lights 100 The control unit 110 controls the LED driving unit 106 so that the LED lighting unit 108 can control the dimming control of the LED lighting unit 108 in the standby mode, .

Here, when an object is detected in a process of elapse of a predetermined time, or when an RF detection signal is received with an effective reception sensitivity, the LED lighting lamp 108 may maintain the dimming control state at the maximum brightness, The LED lighting lamp 108 is dimmed and the routine for switching to the brightness in the standby mode is reset.

100: LED parking light
102: object detection sensor 104: RF module
104a: RF transmitting unit 104b: RF receiving unit
104c: RF reception sensitivity (distance) detector
106: LED driver 108: LED light
110: control unit 112: memory unit
114: Remote control setting section

Claims (5)

An object detection sensor 102 for detecting a movement of an object and generating a signal;
When an object detection signal is generated from the object detection sensor 102, the RF transmitter 104a transmits an RF detection signal to the outside, an RF receiver 104b receives an RF detection signal from the outside, (Distance) detector 104c for detecting the reception sensitivity (intensity) of the RF sensing signal received by the RF receiving module 104b;
When a signal is generated by the object detection sensor 102, the RF transmitter 104a wirelessly transmits an RF detection signal, an object detection signal generated by the object detection sensor 102 is received, When the reception sensitivity of the RF sensing signal detected by the sensing section 104c is stronger than or equal to the preset intensity, the LED driving section 106 is controlled to dim the LED lighting light 108 to the brightness set when the object is sensed, Or when the reception sensitivity of the RF detection signal detected by the RF reception sensitivity (distance) detecting unit 104c is lower than the set intensity, the LED driving unit 106 is controlled by the LED driving unit 106 after a lapse of a predetermined time, A control unit 110 for controlling the brightness of the display unit to a predetermined brightness;
The brightness of the LED lighting lamp 108 referenced by the controller 110 in the standby mode, the maximum brightness of the LED lighting lamp 108, the reception sensitivity of the RF sensing signal for dimming the LED lighting lamp 108 to the maximum brightness Distance sensing) signal is stopped or the receiving sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is received weaker than the set intensity, and the dimming And a memory unit (112) for storing information on an elapsed time for switching the controlled LED lighting lamp (108) to brightness in a standby mode when no object is detected. Parking lot lighting by sensitivity. The method according to claim 1,
The brightness of the LED illuminating lamp 108 in the standby mode, the maximum brightness of the LED illuminating lamp 108, the intensity of the received sensitivity (distance sensitivity) of the RF sensing signal for dimming the LED illuminating lamp 108 to the maximum brightness, An LED illuminating lamp whose dimming control is performed with the brightness of the object detected after the reception sensitivity of the RF sensing signal detected by the RF receiving sensitivity (distance) detecting unit 104c is lower than the set intensity, 108) is set to the brightness in the standby mode when no object is detected, based on the reception sensitivity of the RF sensing signal Parking lot. 3. The method of claim 2,
The intensity of the reception sensitivity (distance sensitivity) of the RF detection signal detected by the RF reception sensitivity (distance) detection unit 104c may be the same as that of the RF transmission unit 104a of any one of the RF modules 104, And the RF reception unit 104b of the RF receiver 104b. 3. The method of claim 2,
The remote controller setting unit 114 receives a signal transmitted from a remote controller, and changes the setting or the setting of the remote controller. The parking lot is illuminated by receiving sensitivity of the RF signal. The method according to claim 1,
The controller 110 controls the dimming of the LED illuminating lamp 108 according to the received sensitivity of the RF sensing signal detected by the RF receiving sensitivity detecting unit 104c. A parking lot that is illuminated by the reception sensitivity of the signal.

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