CN107770935B - Lamp control system - Google Patents

Abstract

The present disclosure relates to a luminaire control system comprising: a luminaire comprising a light emitting module having a first light emitting pattern for emitting therapeutic light for improving a health condition of a user; the detection device comprises a detection module and a first communication module, wherein the detection module is used for detecting vital signs of a user in the first lighting mode; and the control equipment comprises a second communication module and a control module, wherein the second communication module is used for receiving a detection result sent by the detection equipment through the first communication module, and the control module is used for controlling the light emission of the lamp according to the detection result. By means of the lamp control system, the treatment lamplight can be adjusted according to the health condition of a user under the treatment lamplight, so that the comfort level of the user can be improved, some emergency conditions such as occurrence of diseases can be prevented, and the safety of the user can be guaranteed to a certain extent.

Description

Lamp control system

Technical Field

The disclosure relates to the field of lighting, and in particular to a lamp control system.

Background

Currently, with the increase of patients suffering from senile dementia (cognitive disorder), depression, poor sleep quality, etc., lamps for emitting therapeutic lights to delay senile dementia, improve depression, improve sleep quality, etc. have been developed. In currently developed light fixtures of this type, on-off, or off-on, can be achieved by a switch. However, since the emitted therapeutic light itself is too intense, discomfort (e.g., ocular discomfort, heart rate variation) and the like may be caused to the user during the course of the treatment.

Disclosure of Invention

In view of this, the present disclosure proposes a lamp control system.

According to an aspect of the present disclosure, there is provided a lamp control system, comprising: a luminaire comprising a light emitting module having a first light emitting pattern for emitting therapeutic light for improving a health condition of a user; a detection device comprising a detection module and a first communication module, wherein the detection module is for detecting vital signs of the user in the first lighting mode; and the control equipment comprises a second communication module and a control module, wherein the second communication module is used for receiving a detection result sent by the detection equipment through the first communication module, and the control module is used for controlling the light emission of the lamp according to the detection result.

In a possible implementation manner, for the lamp control system, the control module reduces the luminous intensity and/or the color temperature of the therapeutic lamp if the detection result indicates that the vital sign exceeds a first threshold.

In a possible implementation manner, for the above luminaire control system, the control device further comprises an alarm module, wherein the alarm module is configured to issue an alarm if the detection result indicates that the vital sign exceeds a second threshold, and the control module switches off the first lighting mode, wherein the second threshold is higher than the first threshold.

In a possible implementation manner, for the lamp control system, the light emitting module further has a second light emitting mode for emitting daily lights.

In a possible implementation manner, for the above luminaire control system, the control device further comprises an alarm module, wherein the alarm module is configured to issue an alarm if the detection result indicates that the vital sign exceeds a second threshold, and the control module switches the light emitting module from the first light emitting mode to the second light emitting mode or extinguishes the luminaire, wherein the second threshold is higher than the first threshold.

In a possible implementation manner, for the lamp control system, the lamp further includes a timer, where the timer is used to count the treatment time of the user, and the control module turns off the first lighting mode if the count of the timer exceeds a predetermined threshold.

In a possible implementation manner, for the lamp control system, the lamp further includes a timer, where the timer is used for counting the treatment time of the user, and the control module switches the light emitting module from the first light emitting mode to the second light emitting mode or extinguishes the lamp if the count of the timer exceeds a predetermined threshold.

In a possible implementation manner, for the lamp control system, the control device further includes a wake-up module, where the wake-up module is configured to wake up the user if the detection result indicates that the user breathes slowly.

In one possible implementation, for the above luminaire control system, the vital signs comprise at least one of: a heartbeat; breathing; body temperature and ocular signs.

By the lamp control system, vital signs of a user under treatment of treatment lamplight can be detected by the detection device, detection results are sent to the control device, and then the control device can adjust the light emission of the lamp according to the received detection results. Therefore, compared with the process of realizing the on-off or on-off of the lamp by only switching in the prior art, the treatment lamp light can be adjusted in real time according to the health condition of the user under the treatment lamp light, so that the cognitive symptoms, the suppression symptoms, the sleep quality and the like can be more effectively treated, the comfort of the user can be improved, and some emergency conditions such as the occurrence of diseases and the like can be prevented, so that the safety of the user is ensured to a certain extent.

Further, according to the lamp control system of the embodiment of the disclosure, by setting the first threshold, comparing the detection result with the first threshold, and then adjusting the luminous intensity or the color temperature of the therapeutic lamp light according to the comparison result, the user can feel more comfortable in the therapeutic process, so that the therapeutic effect is improved.

Further, by the lamp control system according to the embodiment of the present disclosure, by setting the first threshold, comparing the detection result with the second threshold, and sending out an alarm if the detection result is greater than the second threshold, and turning off the first light emitting mode of the light emitting module of the lamp. Therefore, the user can be timely cured under the condition that the user possibly has danger, so that the comfort level of treatment of the user is improved and the safety of the user is ensured to a certain extent.

Further, according to the lamp control system disclosed by the embodiment of the disclosure, the timer is set to enable the lamp control system to have a time reminding function, so that a user or a worker and the like can clearly grasp the treatment time of the user.

Further, according to the lamp control system of the embodiment of the disclosure, during the treatment of the user, the user can be awakened by the awakening module under the condition that the user falls asleep or the like so as to continue effective treatment. Thereby, the therapeutic effect can be remarkably enhanced.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 illustrates a block diagram of a luminaire control system according to an embodiment of the present disclosure;

fig. 2 shows a smart lighting curve of a therapeutic lamp of a luminaire.

Fig. 3 shows a block diagram of a luminaire control system according to another embodiment of the present disclosure.

Fig. 4 shows a block diagram of a luminaire control system according to a further embodiment of the present disclosure.

Fig. 5 shows a block diagram of a light fixture control system according to yet another embodiment of the present disclosure

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, methods, means, elements, and circuits well known to those skilled in the art have not been described in detail in order not to obscure the present disclosure.

The lamp control system of the present disclosure is mainly applicable to institutions such as senior citizens, apartments for senior citizens, nursing homes, and geriatric homes for providing senior citizens with senior services. Of course, the luminaire control system of the present disclosure may also be applicable to other institutions such as hospitals, or ordinary households where cognition patients, suppression or people with poor sleep quality are present. For example, such a lamp may be installed exclusively at a place of a hospital and a terminal provided with a control device as described below is provided, and then a patient wearing a detection device (for example, a bracelet) is illuminated (therapeutic light is irradiated) with the lamp. In such a scenario, control may be performed with the luminaire control system of the present disclosure comprising a luminaire, a control device and a detection device.

Exemplary embodiments for implementing the luminaire control system of the present disclosure will be specifically described below.

Fig. 1 shows a block diagram of a luminaire control system according to an embodiment of the present disclosure. As shown in fig. 1, the luminaire control system 1 comprises a luminaire 11, a detection device 12 and a control device 13.

Specifically, the lamp 11 may be any Light source such as an LED (Light-Emitting Diode), a fluorescent lamp, an incandescent lamp, or the like. The luminaire 11 may comprise a light emitting module 111, the light emitting module 111 may have a first light emitting pattern for emitting therapeutic light improving the health of the user. The light emission intensity of the therapeutic lamp light is, for example, 10 times or more of the light emission intensity of daily lamp light, and the color temperature thereof is 5000K or more. For example, in case a treatment (e.g., a cognitive disorder treatment) is required for a user (e.g., an elderly person), the light emitting module 111 may be set to a first light emitting mode to emit a treatment light. In one possible implementation, the light emitting module 111 further has a normal light emitting mode, i.e. a second light emitting mode, for emitting daily lights. For example, in case that treatment is not required and light is required, the light emitting module 111 may be set to the second light emitting mode for general illumination.

The detection device 12 is a mobile terminal such as a smart bracelet, a smart phone, and a tablet computer. For example, where the detection device 12 is a smart bracelet, the user may be enabled to wear the bracelet while treating. For example, where the detection device 12 is a smart phone or tablet, the smart phone or tablet may be placed in proximity to the user. Hereinafter, a smart band will be mainly described as the detection device 12.

The detection device 12 may include a detection module 121 and a first communication module 122. Wherein the detection module 121 may be used for detecting vital signs of the user in the first lighting mode. The resulting detection result may then be transmitted to the control device 13 using the first communication module 122. The first communication module 122 may be any module such as a WIFI module, a bluetooth module, or an NFC (Near Field Communication ) module, as long as the module can realize data transmission and reception with the control device 13.

In one possible implementation, the vital signs include at least one of: a heartbeat; breathing; body temperature and ocular signs.

For example, when the elderly wear the bracelet, the elderly are treated by using the treatment light of the lamp, and during the treatment, the bracelet can detect the heart rate (i.e. the number of beats per minute), the breathing speed, the body temperature and the eye condition (whether the aged feels swollen, blinked frequently, etc.) of the user. After the detection results are obtained, these detection results may be transmitted to the control device 13 using the first communication module 122.

It should be noted that these vital signs are only examples and any other vital sign that is capable of characterizing the health of the user may be detected. Furthermore, the detection device 12 may have the function of detecting only one of these vital signs, or may have the function of detecting a plurality of these vital signs simultaneously.

In the above description, the detection device 12 is described as a movable device such as a bracelet or the like. However, the present disclosure is not limited thereto, and the detection device 12 may be any other device such as a PC, as long as the device has a function for detecting vital signs of a user and transmits the detection result to the control device 13.

The control device 13 is, for example, a mobile terminal such as a smart phone and a tablet computer, a remote controller, a personal computer, and the like, which can be placed on a wall or a desk.

The control device 13 may include a second communication module 131 and a control module 132. Wherein the second communication module 131 is configured to receive the detection result sent from the first communication module 122 of the detection device 12. As with the first communication module 122, the second communication module 131 may be any module such as a WIFI module, a bluetooth module, or an NFC module, as long as the module can achieve data transmission and reception with the detection device 12 and the luminaire control system 11.

The control module 132 of the control device 13 may control the lighting of the luminaire 11. For example, the control module 132 may send an indication command to the light fixture 11 containing an intelligent illumination profile to instruct the light fixture 11 to illuminate the user (illuminate the treatment light) according to the intelligent illumination profile. In one possible implementation, the intelligent illumination profile is as shown in fig. 2. Wherein the horizontal axis represents time, and the vertical axis represents luminous intensity or color temperature of therapeutic lamp light. Generally, for therapeutic lights, the user needs an adaptation process, so the illumination curve of therapeutic lights generally rises smoothly, then stabilizes at a peak for a period of time, and then falls smoothly. Of course, the intelligent illumination curves shown in FIG. 2 are merely examples, and other types of illumination curves may be employed.

After receiving the detection result of the detection device 12 through the second communication module 131, the control module 132 may control the light emission of the lamp 11 according to the detection result, i.e. may appropriately adjust the illumination curve according to the detection result, so as to make the treatment of the user more comfortable and prevent some emergencies such as occurrence of diseases.

By the lamp control system, vital signs of a user under treatment of treatment lamplight can be detected by the detection device, detection results are sent to the control device, and then the control device can adjust the light emission of the lamp according to the received detection results. Therefore, compared with the process of realizing the on-off or on-off of the lamp by only switching in the prior art, the treatment lamp light can be adjusted in real time according to the health condition of the user under the treatment lamp light, so that the cognitive symptoms, the suppression symptoms, the sleep quality and the like can be more effectively treated, the comfort of the user can be improved, and some emergency conditions such as the occurrence of diseases and the like can be prevented, so that the safety of the user is ensured to a certain extent.

The control device 13 performs light emission adjustment according to the detection result of the vital sign of the user by the detection device 12 will be described in detail below.

For example, in case the detection result received from the detection device 12 indicates that the vital sign exceeds the first threshold value, the control module 132 of the control device 13 decreases the luminous intensity and/or the color temperature, etc. of the therapeutic light.

Specifically, in the control device 13, first thresholds for various vital signs are set, and the light emission intensity and/or color temperature, etc. of the treatment lamp light are adjusted according to the comparison result of the received detection result of the vital sign and the set first threshold of the corresponding vital sign.

For example, a first threshold may be set for a heartbeat, such as 100 beats/minute. When the received detection result indicates that the heartbeat is larger than 100 times/min, the heartbeat is too fast, and the luminous intensity or the color temperature of the treatment lamplight or both can be properly reduced. For example, the luminous intensity of the therapeutic lamp light may be adjusted to 8 times that of the daily lamp light, or the color temperature may be adjusted to 4000K.

As another example, a first threshold may be set for respiration, e.g., 80 times/minute. When the received detection result indicates that the respiratory rate is greater than 80 times/min, the respiratory rate is too fast, and the luminous intensity or the color temperature of the treatment lamplight or both can be properly reduced.

As another example, a first threshold, e.g., 38 ℃, may be set for body temperature. When the received detection result indicates that the body temperature is higher than 38 ℃, the body temperature is overhigh, and the luminous intensity or the color temperature of the treatment lamplight can be reduced appropriately, or the two can be reduced appropriately.

As another example, an appropriate blink frequency may be set for the ocular feature as the first threshold. When the received detection result indicates that the blink frequency is larger than the first threshold value, the blink is too fast, i.e. the user may feel uncomfortable due to too strong illumination, at which time the luminous intensity or the color temperature of the therapeutic lamp light, or both, may be reduced appropriately.

The values of the first threshold set above are merely examples, and these thresholds may be adjusted as needed. For example, the first threshold may be appropriately adjusted according to the age, sex, and health of the treating user itself. Furthermore, the therapeutic light may be adjusted as long as one of the vital signs is greater than its corresponding first threshold. Of course, it is also possible to arrange for the treatment lights to be adjusted when two of them are greater than their respective thresholds.

By setting the first threshold, comparing the detection result with the first threshold, and then adjusting the luminous intensity or color temperature of the therapeutic lamplight according to the comparison result, the user can feel more comfortable in the therapeutic process, and the therapeutic effect is improved.

In the above-described embodiments, the vital signs of the user may typically only change gently when treating with the treatment light. Thereby, a first threshold value is set, which is typically a value at or below the critical value of these vital signs. However, if vital signs change dramatically during treatment, or other diseases of the user are induced, these vital signs may exceed the following second threshold and may cause some dangerous conditions.

Fig. 3 shows a block diagram of a luminaire control system according to another embodiment of the present disclosure. As shown in fig. 3, the main difference between the lamp control system 2 of the present embodiment and the lamp control system 1 of the above-described embodiment is that: in the control device 13, an alarm module 133 is included in addition to the second communication module 131 and the control module 132. Wherein the alarm module 133 is adapted to issue an alarm if the received detection result of the detection device 12 indicates that the vital sign exceeds a second threshold value and at the same time the control module 132 switches off the first lighting mode. Wherein the second threshold is higher than the first threshold. In one possible implementation, the alarm module 133 may send out a notification by using a speaker to notify a worker or a family of the user, or may directly alarm to the emergency center, so that the user is effectively and timely rescued. The mode of the alarm module 133 to give an alarm is not limited thereto, and may be any alarm mode as long as it can notify others so that the user can be effectively and timely cured.

Specifically, in the control device 13, a second threshold value for vital signs is set, and the lamp 11 is controlled according to a comparison result of the received detection result of vital signs and the set second threshold value of the corresponding vital signs.

For example, a second threshold may be set for the heartbeat, e.g. 120 beats/min. When the received detection result indicates that the heartbeat is greater than 120 times/min, the heartbeat is possibly abnormal, and then an alarm can be immediately sent out, and the first light-emitting mode of the light-emitting module 111 of the lamp 11 is turned off.

As another example, a first threshold may be set for respiration, for example 100 times/minute. When the received detection result indicates that the respiratory rate is greater than 100 times/min, it indicates that the respiratory rate may be abnormal, at this time, an alarm may be immediately sent out, and the first lighting mode of the lighting module 111 of the lamp 11 is turned off.

As another example, a first threshold, e.g., 40 ℃, may be set for body temperature. When the received detection result indicates that the body temperature is higher than 39 ℃, the body temperature is possibly abnormal, and then an alarm can be immediately sent out, and the first light-emitting mode of the light-emitting module 111 of the lamp 11 is turned off.

As another example, a frequency higher than the blink frequency as the first threshold in the above-described embodiment may be set as the second threshold for the ocular sign. When the received detection result indicates that the blink frequency is larger than the second threshold value, it indicates that the eyes of the user may be very uncomfortable, and an alarm may be immediately sent out, and the first lighting mode of the lighting module 111 of the lamp 11 is turned off.

The values of the second threshold set above are merely examples, and these thresholds may be adjusted as needed. For example, the second threshold may be appropriately adjusted according to the age, sex, and health of the treating user itself. Furthermore, a warning should be issued and the first lighting mode of the lighting module 111 of the luminaire 11 should be switched off as long as one of the vital signs is greater than its respective second threshold.

In one possible implementation, the alarm module 133 sounds an alarm in case the detection result indicates that any of the vital signs exceeds the respective second threshold, and the control module 132 switches the light emitting module 111 from the first light emitting mode to the second light emitting mode or directly extinguishes the luminaire 11. That is, in this case, the control module 132 may switch the therapeutic light of the luminaire 11 to daily light (typically when illumination is required) or directly extinguish the light of the luminaire (typically when not required).

By the above-described embodiments of the present disclosure, the control device may set a first threshold value and a second threshold value larger than the first threshold value for each vital sign, and compare the received detection result with the respective first threshold value and the second threshold value, reduce the light emission intensity and/or the color temperature, etc. of the therapeutic light of the luminaire if the detection result is larger than the respective first threshold value, and issue an alarm and turn off the first light emission mode of the light emitting module of the luminaire if the detection result is further larger than the respective second threshold value. Therefore, the treatment lamplight can be flexibly adjusted according to the detection result, and the user can be timely cured under the condition that the user is possibly dangerous, so that the comfort level of the user treatment is improved, and the safety of the user is guaranteed to a certain extent.

Fig. 4 is a block diagram illustrating a configuration of a luminaire control system according to yet another embodiment of the present disclosure. As shown in fig. 4, the main difference between the lamp control system 3 in the present embodiment and the lamp control system 1 described above is that: in addition to the light emitting module 111, a timer 112 is included in the lamp 11. The timer 112 is configured to count a treatment time of the user, wherein the control module 132 turns off the first light emitting mode if the count of the timer 112 exceeds a predetermined threshold.

In particular, generally, the user is not illuminated with the therapeutic light of the light fixture 11 for too long a period of time during the day for health considerations of the user. For this purpose, a timer 112 is provided in the lamp 11, and the timer 112 is used to count the treatment time of the user per day. And, in the event that the count of timer 112 exceeds a predetermined threshold (e.g., 2 hours), the user is no longer treated on the same day. The timer 112 may count continuous time or discontinuous time in one day. For example, the user may continue to treat for 2 hours in the morning, in which case the user is no longer treated on the day. As another example, the user may be treated for 1 hour in the morning and then for 1 hour in the afternoon, such that after 1 hour in the afternoon, the user is no longer treated on the day.

In one possible implementation, the timing of the timer 112 may be associated with a wristband worn by the user, such that the timing of the timer 112 is for each user. Specifically, the count of the timer 112 may be associated with the identification information of the wristband, thereby enabling grasping of the time of treatment of the user corresponding to the wristband during the day.

Further, a display (not shown) for displaying the treatment time or the remaining treatment time thereof for each user may be provided in the control device 13, thereby intuitively reminding the user or other staff member, etc., of the treatment time of the user.

In one possible implementation, the control module 132 may switch the light emitting module 111 from the first light emitting mode to the second light emitting mode or directly turn off the light fixture 11 in case the count of the timer 112 exceeds a predetermined threshold, i.e. switch the treatment light to daily light when daily light is required or directly turn off the light fixture 11 when daily light is not required.

In the above embodiment, the timer is provided in the lamp. However, the present disclosure is not limited thereto, and a timer may be provided in the control apparatus.

In the luminaire control system 3 shown in fig. 4, the control device 13 may further comprise an alarm module 133 in the above-described embodiments. The detailed description of the alarm module 133 is given above, and will not be repeated here.

According to the lamp control system disclosed by the embodiment of the invention, the timer is arranged to enable the lamp control system to have a time reminding function, so that a user or staff and the like can clearly grasp the treatment time of the user.

Fig. 5 shows a block diagram of a luminaire control system according to a further embodiment of the present disclosure. As shown in fig. 5, the main difference between the lamp control system 4 of the present embodiment and the lamp control system 1 described above is that: in the control device 13, a wake-up module 134 is included in addition to the second communication module 131 and the control module 132. Wherein, the wake-up module 134 is configured to wake up the user if the detection result indicates that the breath of the user is slow.

In particular, in some cases, due to the longer treatment time, it may result in situations where the user falls asleep (in this case, typically manifests as slow breathing) during the treatment. In this case, if the treatment is continued, the effect may be poor.

For this purpose, in the present embodiment, a wake-up module 134 is provided in the control device 13. In case the detection result received by the control device 13 from the detection device 12 indicates that the user breathes slowly, it is indicated that the user is likely to fall asleep. At this point, the wake module 134 may be utilized to wake the user to continue effective treatment. The wake-up module 134 wakes up the user, for example, by playing loud music, notifying a worker, or the like. In one possible implementation, the therapy may also be ended after waking up the user with the wake module 134.

In the luminaire control system shown in fig. 5, the control device 13 may also comprise the above-mentioned alarm module 133, and the luminaire 11 may also comprise the timer 112. The detailed descriptions of the alarm module 133 and the timer 112 are described above, and will not be repeated here.

According to the lamp control system of the embodiment of the disclosure, the user can be awakened by utilizing the awakening module 134 in the condition that the user falls asleep or the like during the treatment process of the user so as to continue effective treatment. Thereby, the therapeutic effect can be remarkably enhanced.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvement of the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (5)

1. A light fixture control system, comprising:

a luminaire comprising a light emitting module having a first light emitting mode for emitting therapeutic light for improving a user's health status and a second light emitting mode for emitting daily light;

a detection device comprising a detection module and a first communication module, wherein the detection module is for detecting vital signs of the user in the first lighting mode; and

the control device comprises a second communication module, a control module and an alarm module, wherein the second communication module is used for receiving the detection result sent by the detection device through the first communication module, the control module is used for controlling the light emission of the lamp according to the detection result,

wherein the control device sets a first threshold value for the vital sign, which is a critical value or a value below a critical value of the vital sign, and a second threshold value larger than the first threshold value, which is a value indicating that an abnormality occurs in the vital sign,

in case a treatment of the user is required, setting the light emitting module to the first light emitting mode to emit the treatment light,

in case no treatment of the user is required, but a light is required, setting the light emitting module to the second light emitting mode for illumination,

during setting of the light emitting module to the first light emitting mode, the control device compares the detection result with the first threshold value and the second threshold value,

in case the detection result indicates that the vital sign exceeds the first threshold value, the control module reduces the luminous intensity and/or the color temperature of the therapeutic light,

and when the detection result shows that the vital sign further exceeds the second threshold value, the alarm module gives an alarm, and the control module switches the light emitting module from the first light emitting mode to the second light emitting mode or extinguishes the lamp.

2. The light fixture control system of claim 1 wherein the light fixture further comprises a timer for counting a treatment time of the user,

wherein the control module turns off the first light emitting mode if the count of the timer exceeds a predetermined threshold.

3. The light fixture control system of claim 1 wherein the light fixture further comprises a timer for counting a treatment time of the user,

and under the condition that the timing of the timer exceeds a preset threshold value, the control module switches the light emitting module from the first light emitting mode to the second light emitting mode or extinguishes the lamp.

4. The luminaire control system of claim 1, wherein the control device further comprises a wake-up module for waking up the user if the detection result indicates that the user breathes slowly.

5. The luminaire control system of any one of claims 1-4, wherein the vital signs comprise at least one of: a heartbeat; breathing; body temperature and ocular signs.