DE19905508A1 - Voice-activated control system e.g. for room lighting on/off switching - Google Patents

Abstract

A control device for a power (consumer) load includes an acoustic signal detector (2), a signal processing unit (3-6) for evaluating the acoustic signal and a control unit (7) which controls the power load in relation to the result of the evaluation. The power load assumes a defined state or condition during a given acoustic signal. The detector (2), the signal processing unit (3-6) and the control unit (7) form a structural and circuit technical item, with the detector (2) and the signal processing unit (3-6) more specifically together forming an integrated circuit on a common semiconductor material.

Description

The invention relates to a control device of an energy consumer with a detector for an acousti cal signal, a signal processing unit for evaluation the acoustic signal and a control unit, which in Ab dependent on the result of the evaluation the energy ver controls the user so that he is at a certain acoustic Signal assumes a defined state.

Known voice control systems are based on one another agreed individual components. A microphone changes that Sound pressure going to the system from a sound source will carry in electrical signals. In a speech processor the electrical signals of a signal processing un thrown. In the simplest case, the electrical signals le only evaluated whether the received sound print a certain level and / or a certain time he has. With further signal processing also the detection of certain sound patterns in acoustic Si Signal source possible. An example of speech recognition systems are acoustic switches that can be fen lights are switched and through which mecha Have African switchgear replaced. The price for However, these systems are high because of the individual components the respective application must be adapted. Because of of the discrete structure arise for the individual components because assembly costs.

To get a functioning system, the On individual components can be coordinated. Usually develop experts with special knowledge of language processing processing these systems.

The object of the present invention is to recognize speech system that is universal and with low ent  development effort can be used for different applications is. The cost of the speech recognition system is said to be below those of known speech recognition systems.

This task is solved with a control device an energy consumer with the features of the patent saying 1.

The advantage of the invention is that the device to control the energy consumer like a single component can be processed by pick and place machines. Thereby are short times for the completion of a printed Circuit that contains the device possible.

Another advantage is that the device in one gen housing can be accommodated. The adaptation of Ge houses on the individual components are no longer necessary.

Preferably, the detector for the acoustic signal and the signal processing unit on a common scarf tion carrier applied and with the control unit in one shared housing. As a common scarf A circuit board is the ideal choice circuits of the detector and the components of the signal processing processing unit through predetermined holes in the board leads and electrically connected with solder and mechanically fi are fixed. Housing, as in the individual components are not necessary.

In order to further reduce the dimensions of the device NEN the detector and the signal processing unit or the Signal processing unit and the control unit or the De tector and the signal processing unit and the control unit unit as an integrated circuit on a semiconductor material al be provided. Suitable as a control unit an integrable power semiconductor.  

These entry openings can be sound-permeable Membrane must be covered. Such a membrane can itself Represent a microphone diaphragm.

When the detector is integrated, the entry openings make it easier conditions in the housing the transmission of the acoustic signal to Detector.

A micromechanical silicon microphone can be used as the detector integrate.

The signal processing unit typically contains one Analog-to-digital converter that uses the digital signals of the micro converts fons into digital electrical signals, a voice processor and as a control unit a semiconductor power switch. Expediently belong to the speech processor a program memory and a data memory, the memory of which keep communicating with the speech processor.

The device can in particular be used to control lamps can be used for room lighting. The control unit can be programmed so that when receiving a he Most acoustic command the lamp is turned on, whereby it does not immediately assume its greatest possible brightness, but based on only a low brightness, this continuously or in small steps until receipt nes second acoustic command increased. With that is a spoke controlled dimming of the lamp possible.

It can also be provided that the acoustic commands in several groups, each containing commands of the same type, are divided. In one embodiment, three Groups used, namely a group of commands to act vation of all devices that emp the acoustic signal have to catch one to address one or more pre directions from all activated devices and one to Triggering of the state described with the command.  

Further advantageous training and further education are in Un marked claims.

The invention is based on the individual figure ago explained.

The figure shows a control device according to the invention of energy consumption.

According to the figure, the device 1 contains a detector 2 for an acoustic signal, such as a microphone or a piezoelectric sound pickup, and an analog-to-digital converter 3 . The detector 2 picks up the mechanical pressure fluctuations on the basis of the acoustic signal and converts it into an electrical signal. The acoustic signal can be a mechanical sounder, e.g. B. a whistle, an electric sound generator, e.g. B. a tone generator, or the human voice.

The analog-digital converter 3 is connected to a control unit 4 , 5 , 6 , to which the electrical signal is supplied. The signal processing unit contains a speech processor 4 , which processes the electrical signal. The processing sequence of the speech processor 4 is controlled by a program that is located in a program memory 5 . By adapting the program, the speech processor 4 can be set to different signal processing processes. The program memory 5 and the data memory 6 are connected to the speech processor 4 via suitable interfaces.

A data memory 6 allows the exchange of comparison and intermediate data with the speech processor 4 . The comparison data are predetermined data with which the data generated by the speech processor 4 can be compared. If a data pattern of the generated data derived from the electrical, and thus from the acoustic signal, matches a pattern of the comparison data, a specific process can be triggered. Such a process can, for example, trigger a defined state of a control unit 7 . An actuator is suitable as the control unit 7 , which controls a working current of the energy consumer on the basis of a processor command. A simple embodiment of an actuator is a semiconductor switching element, such as a thyristor or a power MOSFET.

The control unit 7 can be connected to the supply voltage circuit of an energy consumer and control the energy consumer as a function of the signal evaluated by the speech processor 4 . The electrical consumer is not shown in the figure.

The detector 2 , the analog-to-digital converter 3 , the signal processing unit 4 , 5 , 6 and the control unit 7 form a structural and circuitry unit.

This is achieved, for example, in that the individual elements detector 2 , analog-to-digital converter 3 , speech processor 4 , program memory 5 and data memory 6 are implemented on a common semiconductor substrate as an integrated circuit and form a semiconductor chip. The integration of a micromechanical silicon microphone as a detector 2 with the analog-to-digital converter 3 , the speech processor 4 , the program memory 5 and the data memory 6 is easily possible.

The actuator 7 can be inte grated on the same semiconductor substrate if the power to be switched by the actuator 7 , which the addressed energy consumer consumes, is so small that the thermal power loss does not lead to the destruction of the other structures.

The semiconductor chip with the elements 2 , 3 , 4 , 5 and 6 can therefore have a plug device for receiving a discrete power semiconductor as a control unit 7 .

If this semiconductor chip with the attached control unit 7 is provided with a common housing which encloses both the semiconductor chip and the power semiconductor and from which only the further connections of the semiconductor chips are led out, this arrangement can be handled as a single component. Efficient processing is possible in automatic placement machines. The housing preferably has openings which allow the acoustic signals to be received to penetrate into the housing to the detector 2 .

In order to be able to activate several arrangements or integrated circuits with the elements 2 , 3 , 4 , 5 , 6 and 7 for controlling different energy consumers, which can all receive the same acoustic signal, for example because of their spatial proximity, in a targeted and independent manner the speech processor 4 can be designed so that it evaluates under different command groups.

For example, the first group contains commands that are made up of finally the activation of the arrays and integrated Circuits. A command is suitable for such a command Keyword that is used in everyday verbal communication does not occur or occurs only rarely (e.g. "SISRS"). To get out of a A variety of activated voice control systems commands of the second group for addressing can be selected be used. With a first word from the second group pe becomes the category of the energy consumers to be controlled selected (e.g. "lamp"). A second word from the second Group will then be available for selection within this category used (e.g. "one"). Of several lamps in one Zimmer will be the one who uses the word "one" assigned.  

The third group contains the actual commands. In one In the most technical case there are two options for this Chen commands, for example "on" and "off" or "bright" and "dark".

Another command could be "dimm" the brightness of the lamp that was initially switched off slowly increases until, for example, the command "stop" is given becomes.

Another possible speech processing process is the recognition of specific characteristics of the voice of a speaker. For example, the speaker can use the sentence "open sesame" in the speech processing unit to initiate a check of the content of the sentence, ie whether the words "sesame", "Open" and "you" in the correct order was said in succession by any speaker. On the other hand, a process can be triggered in the speech processing unit, which determines the characteristics of the speaker's voice. If the results of both analyzes agree with the target values (same text and same speaker), access restrictions can be lifted. For example, an electric door lock can be actuated by the actuator 7 .

The given examples can easily be applied to others electrical consumers such as devices of the sub electronics or machines can be transferred.

Claims (8)

1. Device for controlling an energy consumer

• - With a detector ( 2 ) for an acoustic signal,
• - With a signal processing unit ( 3 , 4 , 5 , 6 ) for evaluating the acoustic signal
• - And a control unit ( 7 ) which, depending on the result of the evaluation, controls the energy consumer in such a way that it assumes a defined state in the case of a specific acoustic signal, characterized in that the detector ( 2 ), the signal processing unit ( 3 , 4 , 5 , 6 ) and the control unit ( 7 ) form a structural and circuitry unit.

2. Device for controlling an energy consumer according to claim 1, characterized in that the detector ( 2 ) and the signal processing unit ( 3 , 4 , 5 , 6 ) are out as an integrated circuit on a common semiconductor material. 3. Device for controlling an energy consumer according to claim 1, characterized in that the signal processing unit ( 3 , 4 , 5 , 6 ) and the control unit ( 7 ) are designed as an integrated circuit on a common semiconductor material. 4. Apparatus for controlling an energy consumer according to claim 1, characterized in that the detector ( 2 ) and the signal processing unit ( 3 , 4 , 5 , 6 ) are applied to a common circuit carrier and with the control unit ( 7 ) in a common housing are accommodated. 5. Device for controlling an energy consumer according to An saying 4, characterized in that the housing A has openings for the acoustic signal. 6. Device for controlling an energy consumer according to egg nem of claims 1 to 5, characterized in that as an acoustic detector ( 2 ), a microphone, as a signal processing unit, an ana log-digital converter ( 3 ) of the analog signals of the microphone ( 2 ) converts into digital electrical signals and a speech processor ( 4 ) and as a control unit ( 7 ) a power semiconductor are provided. 7. Device for controlling an energy consumer according to ei nem of claims 1 to 6, characterized in that the energy consumer is a light emitting agent and the specified state corresponds to an emissivity of the medium between the switched-off state of the agent and its greatest possible emissivity. 6. Device for controlling an energy consumer according to egg NEM of claims 1 to 7, characterized in that the signal processing unit ( 4 ) is designed to differentiate between different groups of acoustic signals, the activation of the device, for addressing the performance and serve to trigger the specified state.