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Remote controlled safe monitoring method

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Publication number
CN101419740B
CN101419740B CN 200710165660 CN200710165660A CN101419740B CN 101419740 B CN101419740 B CN 101419740B CN 200710165660 CN200710165660 CN 200710165660 CN 200710165660 A CN200710165660 A CN 200710165660A CN 101419740 B CN101419740 B CN 101419740B
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CN
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system
remote
monitoring
control
security
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CN 200710165660
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Chinese (zh)
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CN101419740A (en )
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黄正宏
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云辰电子开发股份有限公司
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Abstract

The invention relates to a remote control security monitoring method which is applied to a security monitoring system. The security monitoring system at least comprises an inductor for detecting the dangerous condition within a detection range and a system mainframe for executing a security monitoring system program. The security monitoring system also comprises a remote control device which can carry out remote control. The method comprises the steps as follows: the remote control device for remote control is provided to output an awaking signal to the inductor; the inductor receiving the awaking signal enters into a set mode used for changing a system program from a normal sleep mode; the remote control device outputs an instruction signal which is sent to the system mainframe by the inductor to change the existing security monitoring system program, so as to reset the system program; and the system mainframe receiving the instruction signal feeds back a confirming signal to the inductor to finish the changing setting.

Description

远程控制的保全监控方法 Preservation method of monitoring remote control

技术领域 FIELD

[0001] 本发明涉及一种保全监控系统的控制方法,尤指一种可远程控制感应器的保全监控系统的控制方法。 [0001] The present invention relates to a control method for the preservation of the monitoring system, particularly to a method of controlling the remote monitoring system maintenance control inductor.

背景技术 Background technique

[0002] 市面上家庭用的保全系统,如美国第7113099号以及第5689235号专利案,普遍是由一系统主机、各类型感应器、监控摄影机以及各类型警报器组合而成,各装置间是通过无线电波(RadioFrequency)技术作为信号传输的方式。 [0002] security system for home use market, such as US Patent No. 7,113,099 and No. 5,689,235 patent case, generally consists of a host system, various types of sensors, surveillance cameras, and combination of various types of alarms, among the means is by radio waves (RadioFrequency) technology as a means of signal transmission. 过去的系统主机于警戒状态时,也就是当屋内人员外出时,必须先在系统主机的键盘上键入指令,使其全部在系统主机内所掌管的各感应器及警报器进入警戒状态,以防范外来入侵者或者侦测环境的危险状态。 When the old system to alert the host state, that is, when people go out to the house, you must first type commands on the system host keyboard, all within the system so that the host in charge of the various sensors and alarms on alert to guard against foreign invaders or dangerous state detection environment. 然而当屋主回到屋内时,若是在晚上家人休息时,不能如同一般无人警戒状态时把全部的警报器及感应器的警戒功能全部打开,否则势必误触屋内感应器而发出警报;因此系统主机必须具有选择性部分启动感应器的功能。 However, when the owner returned to the house, if at the time of family rest at night, when no one can not as a general state of alert sirens to alert all of the features and sensors of all open, otherwise the house is bound to inadvertently sensor and alarm; therefore the system must have the host portion selectively activate the sensors function. 这种系统主机技术虽然解决了屋内人士误触警报器的问题,但为使用者带来另一个不方便使用的困扰,因为必须有选择性部分启动感应器,而先将所有警报器和感应器编号化,根据使用者的需求在系统主机上的键盘个别设定被编号的警报器或感应器,使该系统主机的计算机依据编号决定哪个启动与哪个关闭。 Such a system mainframe technology solves the problem of the house who inadvertently alarm, but the other is not convenient for the user to bring trouble to use, because there must be selective section activate the sensors, and first of all alarms and sensors number of, based on the needs of users on the system of the host keyboard set individually numbered alarms or sensors, so that the host computer system according to decide which number to start with which to close. 若是于较小的空间中,感应器或警报器的数目少时,还可以通过记忆力知道哪几个感应器必须启动, 然而如果所欲保全警戒的空间增大,感应器数量增多时,要让部分感应器启动时,除了必须个别记忆感应器编号之外,还必须将感应器编号个别输入系统主机,造成麻烦以及时间的浪费,而目前为止欲设定完整保全系统仍仰赖保全公司人员的服务,并根据服务的内容收取服务的费用,若欲更改系统程序必然造成屋主额外的支出,也无法实时依照不同需要进行保全系统的更动。 If in a smaller space, the number of sensors or alarms low, may also have to start by knowing which memory a few sensors, however, if desired space preservation alert increases, an increase in the number of sensors when to let part when the sensor starts, in addition to individual must remember the sensor number, you must also enter the sensor number of individual host systems, resulting in a waste of time and trouble, but so far to set complete security systems still rely on the service security company personnel, and content services based on cost of service charge, Ruoyu change the system will inevitably lead to additional expenditure program homeowners can not make the changes to preserve the system in real time according to different needs.

发明内容 SUMMARY

[0003] 本发明的主要目的,在于简化保全系统设定的程序,并减少设定时所耗费的时间与成本。 [0003] The main object of the present invention is to simplify the process of setting security system, and reduce the time and cost expended in setting. 为实现上述目的,本发明提供一种远程控制的保全监控方法,应用于一保全监控系统,该保全监控系统包含有一可进行远程控制的遥控装置、至少一作为侦测范围内危险状态的感应器以及一执行保全监控系统程序的系统主机,该感应器侦测到危险状态进而通知该系统主机进行保全监控系统程序,该保全监控系统的遥控装置可输出一唤醒信号于该感应器,使其由常态的休眠模式进入系统变更的设定模式,该感应器接收该唤醒信号后转换为一判别信号可选择性传送于该系统主机或者该遥控装置,由该系统主机或遥控装置回授另一判别信号以决定该感应器是否接收后续该遥控装置所输出用以系统变更的指令信号, 当感应器于可接收遥控装置系统变更指令期间,收到此变更指令,该感应器转送该指令信号于该系统主机以重新设定系统程序,接收该指令信号 To achieve the above object, the present invention provides a method of monitoring preservation remote control, the preservation is applied to a monitoring system, which includes a maintenance monitoring system may be a remote control device for remote control, at least within the detection range of a dangerous state as an inductor and a host system performing maintenance monitoring of the procedure, the sensor detects a dangerous state in turn notifies the host system maintenance program monitoring system, remote monitoring system preservation means which can output a wake-up signal to the sensor, so that the normal sleep mode setting mode change system, which receives the sensor signal is converted into a discrimination is selectively transmitted after the wake-up signal to the host system or the remote control device, remote control by the system host or other feedback device is determined the sensing signals to determine whether to receive a subsequent command signal output by the remote control device changes to the system, when an instruction to change during the sensor apparatus can receive the remote system, this change instruction is received, the inductor transfers the instruction signal to the system host to reset the system program, receives the command signal 的系统主机回授一确定信号于该感应器以完成设定变更。 The host system determines a feedback signal to the sensor to complete the setting change. 附图说明 BRIEF DESCRIPTION

[0004] 图1是本发明一优选实施例的信号传递示意图。 [0004] FIG. 1 is an embodiment of the present invention a signal transmission diagram of a preferred embodiment.

[0005] 图2是本发明一优选实施例的流程示意图。 [0005] FIG. 2 is a schematic flow diagram of a preferred embodiment of the present invention.

[0006] 图3是本发明决定感应器接收第一指令信号方法的信号传递示意图。 [0006] FIG. 3 is a schematic view of the present invention determines a first command signal transmitted sensor signal reception process.

[0007] 图4是本发明决定感应器接收第一指令信号方法的流程示意图。 [0007] FIG. 4 is a schematic flow diagram of the present invention determines a first command signal received inductive method.

[0008] 图5是本发明另一决定感应器接收第一指令信号方法的信号传递示意图。 [0008] FIG. 5 is a signal transmission of the present invention further determines a first command signal a schematic view of the method of receiving the sensor.

[0009] 图6是本发明另一决定感应器接收第一指令信号方法的流程示意图。 [0009] FIG. 6 is a schematic flow diagram of the present invention, the method further determines a first command signal received by the sensor.

具体实施方式 detailed description

[0010] 有关本发明的详细说明及技术内容,现就配合附图说明如下: [0010] For the detailed description and technical contents of the present invention, will now be described with accompanying drawings as follows:

[0011] 请参阅图1,是本发明一优选实施例的信号传递示意图,如图所示:本发明揭露一远程控制的保全监控方法,应用于一保全监控系统中,使用于住所或建筑物保全领域,以及医疗看护等监控领域,该保全监控系统主要包含一可进行远程控制的遥控装置10、至少一作为侦测范围内危险状态的感应器20以及一执行保全监控系统程序的系统主机30,该感应器20侦测到危险状态进而通知该系统主机30进行保全监控系统程序,其中该保全监控系统的信号可利用无线电波(Radio Frequency)进行传输。 [0011] Please refer to FIG. 1, is a schematic diagram of signal transmission of the present invention a preferred embodiment, as shown: The present invention discloses a method of monitoring preservation of remote control, is applied to the preservation of a monitoring system, for use in dwellings or buildings surveillance art preservation, medical care and the like, the preservation of the surveillance system comprises a remote control device may be a remote control 10, as the detection range of the at least one hazardous condition sensor system 20 and a host computer 30 performs system maintenance monitoring program the sensor 20 detects a dangerous state in turn notifies the host computer system 30 for monitoring system maintenance program, wherein the signal monitoring system maintenance can be transmitted by radio waves (radio Frequency).

[0012] 该遥控装置10具有一启动键11使该遥控装置10由常态休眠模式进入指定模式, 此时还输出一唤醒信号111于该感应器20,该遥控装置10另设有至少一指定功能键12以输出一第一指令信号121于该感应器20,其中,该指定功能键12还可设定为复合按键,以避免误触或者可节省按键的数目。 [0012] The remote control device 10 having a start key 11 causes the remote control device 10 enters the normal mode is specified sleep mode wake-up time also outputs a signal 111 to the inductor 20, the remote control device 10 is provided with at least one other specified functions button 12 to output a first command signal 121 to the inductor 20, wherein the specified function key 12 may also be a composite set button, in order to avoid inadvertently or number of keys may be saved. 该感应器20常态处于休眠模式,当接收来自该遥控装置10 的唤醒信号111则进入设定模式,并于设定模式下接收来自该遥控装置10的第一指令信号121,并将该第一指令信号121转换为第二指令信号201传送至该系统主机30。 The inductor 20 normally in a sleep mode, when the received wake-up signal 111 from the remote control device 10 proceeds to the setting mode, and receives a first command signal 121 from the remote control device 10 in the setting mode, and the first command signal 121 into a second command signal 201 transmitted to the host system 30. 该系统主机30接收来自该感应器20的第二指令信号201后即执行保全监控系统程序的变更,待变更完成后回授一确定信号301于该感应器20。 The host system 30 receives a second command signal from the sensor 20 is executed 201 after the change monitoring system maintenance program, after completion of the pending changes to determine a feedback signal 301 to the inductor 20. 该感应器20设有一显示装置21,可为一发光二极管或者一蜂鸣器但仅为实施方式不受限制,当该感应器20接收来自该系统主机30的确定信号301后将启动该显示装置21,以通知使用者变更设定完成,实现个别感应器20的设定,例如群组化感应器20,或者感应器20警戒功能的开关等。 The inductor 20 is provided with a display device 21, it may be a light emitting diode or a buzzer but the embodiment is not limited merely embodiment, when the sensor 20 receives the determination signal 30 from the host system after the start of the display device 301 21, to inform the user to change setting is completed, the inductor 20 is set to achieve an individual, for example a group of sensors 20, sensor switch 20 or the warning function and the like.

[0013] 本发明还揭露一种远程控制的保全监控方法,请参阅图2,是本发明一优选实施例的流程示意图,适用于上述保全监控系统。 [0013] The present invention also discloses a method of monitoring preservation remote control, see FIG. 2 is a schematic flow diagram of embodiments of the present invention a preferred embodiment, the monitoring system suitable for such preservation. 该遥控装置10通过启动键11由休眠模式进入指定模式(步骤Sio)时,降低该遥控装置10输出信号的功率(步骤S20),如此,可针对个别感应器20进行降低功率的唤醒信号111及第一指令信号121的输入,避免邻近的感应器20受到影响,造成输出指令的混乱。 The remote control device 10 a start key 11 enters the specified mode (step Sio) from the sleep mode, reducing the power (step S20) 10 the output signal of the remote control device, thus, can be reduced for the individual sensors 20 to wake up signal power 111 and a first input command signal 121, to avoid adjacent inductor 20 is affected, resulting in an output command confusion. 于指定模式下,该遥控装置10先输出一唤醒信号111 于该感应器20 (步骤S30),此时该感应器20根据所接收该唤醒信号111的大小决定是否由休眠模式进入设定模式,若该唤醒信号111大于设定功率则进入设定模式,若小于该设定功率则停留于休眠模式。 Designation mode at the first remote control device 10 outputs a wake-up signal 111 to the sensor 20 (step S30), at which point the wake-up signal of the sensor 20 according to the received size determines 111 whether the setting mode by the sleep mode, If the wake-up signal 111 is greater than the set power setting mode, if the power is less than the set stay in the sleep mode. 当感应器20由休眠模式进入设定模式(步骤S40)可接收来自指定模式下的遥控装置10输出的第一指令信号121 (步骤S50),该感应器20将第一指令信号121转换输出该第二指令信号201于该系统主机30(步骤S60)。 When the sensor 20 enters the sleep mode by the mode setting (step S40) 121 may receive a first command signal (step S50) output from the remote control device 10 in the designated mode, the first sensor 20 outputs the converted command signal 121 a second command signal 201 to the host system 30 (step S60). 接受该第二指令信号201 的系统主机30即执行保全监控系统程序的变更(步骤S70),变更完成后回授一确定信号301于该感应器20 (步骤S80),接收该确定信号301的感应器20启动该显示装置21 (步骤S90),以通知使用者变更设定完成。 Receiving a second command signal to the host system 201 that the implementation of the 30 changes preserve the monitoring system program (step S70), the change is completed after determining a feedback signal 301 to 20 (step S80) of the sensor, receives the determination signal of the sensor 301 20 starts the display device 21 (step S90), to inform the user to change setting is completed. 此外,若由该感应器20所输出的第二指令信号201或由该系统主机30输出的确定信号301于发送时信号有所丢失,均以重送机制确保信息输出的完整(步骤S61、步骤S81)。 Further, if the second instruction signal generated by the sensor 201 or the output 20 of the transmission signal to be lost when the signal 301 is determined by the host system 30 outputs, are double feed mechanism to ensure the integrity of the information output (step S61, the step S81).

[0014] 为防止因感应器20彼此太过接近,即使该遥控装置10降低其信号输出功率仍达到足以启动该感应器20进入设定模式,本发明设计两种方式决定哪个感应器20接受来自该遥控装置10的第一指令信号121,进而实现保全监控系统程序变更的效果。 [0014] To prevent the sensor 20 is too close to each other, even if the remote control device 10 to reduce its output power signal is still sufficient to activate the sensor 20 enters the setting mode, the present invention is designed in two ways to determine which sensor 20 receives from a first command signal 121 to the remote control device 10, so as to realize the preservation performance monitoring system program changes. 如图3与图4所示,分别为本发明决定感应器接收第一指令信号方法的信号传递示意图与流程示意图。 3 and FIG. 4 determines, respectively, of the present invention, the sensor signal receiving method of the first command signal and a schematic flow diagram schematic transfer. 以两个相邻的感应器20、20a为例,该遥控装置10同时传送该唤醒信号IllUlla于该两个感应器20、20a(步骤P10),各感应器20、20a分别根据所接收到该唤醒信号IllUlla的功率大小,转换为第一判别信号202、202a分别传送至该系统主机30 (步骤P20),该系统主机30接收两个第一判别信号202、202a以判读两个唤醒信号IllUlla的功率大小后(步骤P30),决定哪个感应器20、20a接受该第一指令信号121、121a,最后针对个别感应器20、20a 回授第二判别信号203、203a (步骤P40)以决定该感应器20、20a是否接受后续来自该遥控装置10的信号。 In two adjacent inductors 20,20a example, the remote control device 10 while transmitting the wake-up signal to the two inductors IllUlla 20,20a (step P10), each of the sensors 20,20a respectively according to the received IllUlla the wake-up signal power level, the signal is converted to a first determination system 202,202a are transmitted to the host 30 (step P20), the host system 30 receives a first discrimination signal 202,202a two to interpretation of two wake-up signal IllUlla after the power level (step P30), which sensor determines 20,20a accepts the first command signal 121,121a, 203, 203a and finally granted the second determination signal (step P40) for 20,20a back to determine the individual sensor sensing 20,20a is whether to accept the signal from the remote control device 10 follow. 若判读其中一感应器20距离该遥控装置10较为接近,则使该感应器20 接受该第一指令信号121,若判读该感应器20a较远离该遥控装置10,则使该感应器20a不接受该第一指令信号121a。 If the interpretation of which a distance sensor 20 is closer to the remote control device 10, so that the sensor 20 receives the first instruction signal 121, if the interpretation of the sensor 20a farther from the remote control device 10, so that the sensor 20a is not accepted the first instruction signal 121a.

[0015] 如图5与图6所示,分别为本发明另一决定感应器接收第一指令信号方法的信号传递示意图与流程示意图,还以两个感应器20、20a为例,该遥控装置10同时传送该唤醒信号IllUlla于该两个感应器20、20a(步骤Q10),各感应器20、20a分别根据所接收到该唤醒信号IllUlla的功率大小,转换为第一判别信号202、202a传送至该遥控装置10(步骤Q20),该遥控装置10接收两个第一判别信号202、202a后,判读其功率的大小(步骤Q30) 以决定哪个感应器20、20a接受该第一指令信号121、121a,最后针对个别感应器20、20a回授第二判别信号203、203a (步骤Q40)以决定该感应器20、20a是否接受后续来自该遥控装置10的信号。 [0015] FIG. 5 and FIG. 6, respectively, the other transmission receiving decision schematic sensor signal with the schematic flow chart of a first command signal method, but also with two sensors 20,20a an example of the present invention, the remote control device 10 while transmitting the wake-up signal to the two inductors IllUlla 20,20a (step QlO), each of the sensors 20,20a respectively according to the received power level of the wakeup signal IllUlla, a first determination signal to transmit the converted 202,202a to the remote control device 10 (step Q20), the remote control device 10 receives two first discrimination signal 202,202a, interpretation of the size of its power (step Q30) to determine which sensor 20,20a 121 accepts the first command signal , 121a, and finally for individual feedback sensors 20,20a second discrimination signal 203, 203a (step Q40) to determine whether the sensor signal 20,20a receiving the remote control device 10 from subsequent.

[0016] 本发明揭露一种远程控制的保全监控方法,利用一可远程控制该感应器20的遥控装置10简化过往需要于系统主机30上进行保全监控系统更动的程序,该遥控装置10可直接于所欲设定的各别感应器20附近对其进行单独设定警戒功能的开关或者多个感应器20的群组化,有效减少设定感应器20所耗费的时间与精神,亦可使设定感应器20的过程简单化,使用者可针对其需要进行实时设定。 [0016] The present invention discloses a method of monitoring preservation remotely controlled using a remote control of the sensing means 10 is a simplified remote control 20 needs to be preserved in the past program monitoring system modifier in the host computer system 30, the remote control device 10 may in the immediate vicinity of a desired set respective inductor 20 be individually set alert function switch or a plurality of sensor groups 20, effectively reduce the time and energy it takes to set the sensor 20, and also inductor 20 is set so that the process can be simplified, the user can be set in real time for their needs.

[0017] 以上已将本发明做了详细说明,以上所述仅为本发明的较佳实施例而已,并非用来限定本发明实施的范围。 [0017] The above has been a detailed description of the present invention, the foregoing embodiments are only preferred embodiments of the present invention, but not intended to limit the scope of embodiments of the present invention. 即凡依本发明申请专利范围所做的均等变化与修饰,皆为本发明专利范围所涵盖。 I.e. all modifications and alterations of the invention under this patent does scope, the scope of the patent are all encompassed by the present invention.

Claims (6)

1. 一种远程控制的保全监控方法,应用于保全监控系统中,所述保全监控系统至少具有侦测范围内危险状态的感应器(20),以及执行保全监控系统程序的系统主机(30),其特征在于,提供远程控制的遥控装置(10),进行远程控制时会降低所述遥控装置(10)的输出信号功率;所述遥控装置(10)输出唤醒信号(111)于所述感应器(20);接受所述唤醒信号(111)的感应器(20)由常态的休眠模式进入系统变更用的设定模式;所述遥控装置(10)输出第一指令信号(121)于所述感应器(20),并通过所述感应器(20)转换的第二指令信号(201)传送入所述系统主机(30)进而变更现有保全监控系统程序;接收第二所述指令信号(201)的系统主机(30)回授确定信号(301)于所述感应器(20)以完成变更设定。 A maintenance monitoring method for remote control, is applied to preserve the monitoring system, the monitoring system having at least preserve the detection range of the dangerous state of the sensor (20), and performing system maintenance program monitoring system host (30) characterized in that, to provide a remote control device (10) remote control, the remote control device reduces performed (10) when the output signal power of the remote control; the output of said remote control device (10) wake-up signal (111) to said induction (20); receiving said wake-up signal (111) of the sensor (20) into the system by changing a setting mode of the normal sleep mode; said remote control means (10) outputs a first command signal (121) to the into the host system (201) transmits the second command signal of said sensor (20), and by converting the inductor (20) (30) and further changes to an existing monitoring system maintenance program; receiving said second command signal (201) of the host system (30) determining the feedback signal (301) to the inductor (20) to complete the change set.
2.根据权利要求1所述的远程控制的保全监控方法,其特征在于,所述唤醒信号(111) 经由所述感应器(20)转换为第一判别信号(202)传送于所述系统主机(30),经过所述系统主机(30)判读后回授第二判别信号(203)以决定所述感应器(20)是否接受所述遥控装置(10)的第一指令信号(121)。 The maintenance monitoring method for remote control according to claim 1, wherein said wake-up signal (111) is converted via the inductor (20) is a first discriminating signal (202) transmitted to the host system (30), through the host system determines a second feedback signal (203) after (30) to determine the interpretation of the inductor (20) whether to accept a first command signal (121) of said remote control device (10).
3.根据权利要求1所述的远程控制的保全监控方法,其特征在于,所述唤醒信号(111) 经由所述感应器(20)转换为第一判别信号(202)传送于所述遥控装置(10),经过所述遥控装置(10)判读后回授第二判别信号(203)以决定所述感应器(20)是否接受所述遥控装置(10)的第一指令信号(121)。 The maintenance monitoring method for remote control according to claim 1, characterized in that the signal (111) is converted via the inductor (20) is a first discriminating signal (202) to the remote control device transmitting the wakeup (10), via the remote control device determines a second feedback signal (203) (10) to determine the interpretation of the inductor (20) whether to accept a first command signal (121) of said remote control device (10).
4.根据权利要求1所述的远程控制的保全监控方法,其特征在于,保全监控系统程序的变更可为调整感应器(20)的警戒功能的开关。 The maintenance monitoring method for remote control according to claim 1, characterized in that the change monitoring system maintenance program may adjust sensor (20) switches alert function.
5.根据权利要求1所述的远程控制的保全监控方法,其特征在于,保全监控系统程序的变更可为多个感应器(20)群组化的设定。 The maintenance monitoring method for remote control according to claim 1, characterized in that the change monitoring system maintenance program may be a plurality of sensors (20) of the group setting.
6.根据权利要求1所述的远程控制的保全监控方法,其特征在于,所述遥控装置(10)、 所述感应器(20)以及所述系统主机(30)共同采用无线电波作为信号的传输。 The maintenance monitoring method for remote control according to claim 1, characterized in that the remote control device (10), (20) and said host system, said sensor (30) co signals using radio waves. transmission.
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