DE10040434A1 - Mode detection method for computer system involves deactivating active usage mode of system before detecting again presence of user near system - Google Patents

Abstract

The presence of a user (1) is detected to determine whether the user is near the system. When the user is near the system if the system is in active mode, the presence of the user is again detected, otherwise, the active mode of the system is activated, if the user is not near the system and the system is in the active mode, the active mode is deactivated. If the system is in the deactive mode and the user is not nearby, the system detects again if a user is present or not.

Description

Field of the Invention

This present invention relates to a method of detection a system status, in particular a method for recording the present state of a PC system, which then the Ener energy saving mode or another corresponding preselected Mode activated.

Description of the prior art

The constant growth in computing power of ordinary PC She has systems in schools, offices, households and other places like the so-called "Internet Cafe". On Desktop PC system generally contains one main unit, one Monitor and a keyboard. Consume one during normal operation Main unit and a monitor almost up to 200 W of energy. When numerous PCs in a school or office at the same time work, the energy consumption is considerable.

To save energy, operating systems and hardware pose a lot fold the energy saving mode ready after a preset th period of an idle state is activated and the moni gate shuts down. This also reduces heat generation and operation and thus increases the life of the system comm components. The "Energy Star" association has a set of Spe Specifications for energy consumption while saving energy mode defined. The operating system has also changed from the early one ren APM (Advanced Power Management, advanced power management) to ACPI (Advanced Configuration & Power Interface, advanced configuration and performance interface) for better system energy savings.  

In conventional practice, however, the energy saving mode activated after the keyboard or mouse for a particular Period has not been used. But since the user Keyboard or mouse not used all the time, it happens often that the system automatically goes into sleep mode occurs even if the user is still using the computer, but just take a short break. The user must then touch the keyboard or mouse to return to normal operation to record what is annoying. As a result, many choose Users simply to switch off such an energy saving mode what makes it unavailable. Because of the passive energy economy mode, from which by pressing the keyboard or mouse is woken up when the display of the monitor is in the off state of the Energy saving mode even disappears when a user sitting in front of it, the user can also ignore it looking for the switch on the system again and thus causing the system to switch off unintentionally. For most of the usage mode, many users switch the ener save the system and let screensaver pro run gram to protect the monitor screen.

Furthermore, it is for reasons of confidentiality in certain areas working environments, especially in research and development, best that the monitor shows a bare screen when the user leaves the place and again a full picture screen when the user returns. So a Acquisition process that enables the monitor itself how to behave above, have practical application.

The main aim of the present invention is to be an active one Acquisition method for determining the operating state of a PC System.

Another goal is to create a registration process that automatically deactivates the energy saving mode.  

Another goal is to create a registration process which prevents users from mistaking the system switch off.

A fourth goal is to create a collection process that automatically runs a selected program when the User leaves the computer or approaches the computer.

Summary of the invention

In order to overcome the disadvantages of the conventional method that judged by using the keyboard or mouse whether that System is in an idle state, so that the system during a short pause of the user abruptly switches off or at the user can accidentally turn off the system if he tries to switch on to resume work the present invention a detection method that as a Way to judge whether the system is in use automatically detects whether the user is nearby.

The detection method contains a sensor for detection presence of a user in front of the monitor and off sending detection signals, a routine for determining, ba based on the detection signals whether the system in the Ener Giesparmodus should occur, a control circuit for Akti Four of the energy saving mode. The control circuit has one first mode for saving energy and a second mode for System activation.

Brief description of the drawings

The many strengths and properties of the present invention can further elaborate using the following figures be:  

Fig. 1 illustrating a user operating a computer system,

Fig. 2 flow chart of the detection process here.

Detailed description of the invention

The following is background information for the present Invention. Experienced readers can read this section about to fly. However, reading the following material is up to the reader help to understand the embodiment of the invention.

As shown in Figure 1, most PC users will also use the keyboard 3 and mouse (not shown). But even if the user 1 does not use the keyboard 3 or the mouse, the system can still be in use. For example, the monitor 2 shows a calculation or the downloading of data, or a notebook computer shows a projection image by a projector, or the user 1 can read an article on the screen of the monitor 2 , etc. These are situations when the monitor 2 is in use without simultaneously using the keyboard 3 or the mouse. Therefore, the judgment of whether the system is in use or not based on the state of the keyboard 3 or the mouse may be erroneous. Because the energy-saving mode must be deactivated by the user 1 , the user 1 can also erroneously conclude from the blank screen of the monitor that the system is not activated, and inadvertently switch off the system by mistake.

The present detection method takes into account the fact that in normal operation the user 1 will be in front of or near the monitor 2 . The system can thus automatically deactivate the energy-saving mode when it detects that the user 1 is approaching.

The acquisition method has the following steps, see Fig. 2:

Step 100 : Detect the presence of the user in front of the monitor:
When the system is switched on, it detects the presence of the user in front of the monitor and registers this signal.
This step 100 can be carried out by a sensor that emits signals. A signal amplifier can also be added for better signal control.
In the preferred embodiment of the present invention, the sensor may be an infrared transmitter / receiver, an ultrasonic transmitter / receiver, or a thermal detector device or image processing using a camera to perform step 100 to check the presence of the user in front of the monitor capture.

Step 101 : determine whether the user is in front of the monitor:
Following step 100 , it is determined whether the user is present in front of the monitor, step 102 is performed for an affirmative answer, and step 105 is performed for a negative answer.
In the preferred embodiment, step 101 may be performed by a microprocessor to determine whether the system should be in active use based on the user's condition. This microprocessor can continuously receive detection signals and monitor the status.

Step 102 : system in active use?
Following step 101 , which detects the presence of the user at or near the system; if the system is already in active use then go back to step 100 for continuous monitoring; otherwise it means that the user has returned to the system and step 103 is carried out.
In the preferred embodiment, the microprocessor receives continuous signals and, based on its register, determines that the system is initially set to active mode when the system is first turned on to determine whether the system is in active use. The register can switch in response to the state of the active mode. This determination process could thus be carried out by a microprocessor.

Step 103 : Does the user stay close to the system after a period?
The precondition for performing step 103 is that the system is not in the active or power-saving mode and the user returns close to the system. This step determines whether the user is ready to resume using the system. If the answer is affirmative, step 104 is performed; otherwise step 100 is carried out since the user only intends to return briefly. This step 103 prevents system reactivation if the user only returns for the moment. This acquisition period can be in seconds.
In the preferred embodiment, step 103 may be performed by a counter or timer combined with a sensor to make its determination. Or the microprocessor may include a counter or timer to determine whether the user intends to resume active mode.

Step 104 : system in active mode:
The precondition for performing step 104 is that the system is not currently in active mode and the user has returned to the system after the preselected duration. This step activates the active mode of the system and returns to step 100 .
In the preferred embodiment, step 104 may be performed by a control circuit that activates the active mode. The circuit can switch between two modes: a first mode for the active mode of the system and a second mode for the inactive mode of the system. When the microprocessor determines that the user is ready to resume use of the system, the control circuit switches from the second to the first mode, which activates the active mode. The first control mode can consist of a preset configuration that follows the deactivation of the energy-saving mode, or the monitor can resume a function preset by the user.

Step 105 : whether the system is in active use:
After step 101 determines that the user has left the environment of the system, this step then determines whether the system is in an active use mode; if the result is affirmative, then the user does not resume use and return to step 100 to continue monitoring; otherwise, the user can go straight to step 106 .
In the preferred embodiment, step 105 may be performed by the microprocessor in the manner for step 102 .

Step 106 : Is the user absent after a preset period?
The prerequisite for step 106 is that the system is in active use mode and the user is walking away. This step 106 then determines whether the user will not be using the system. If the answer is affirmative, then to step 107 ; otherwise, after a short pause, the user resumes work and returns to step 100 to continue monitoring. This step allows the user to step aside briefly and the system remains in active use mode. The duration can be set in seconds.
In the preferred embodiment, step 106 can be performed by a counter or timer, combined with a sensor, or by the microprocessor, which determines whether the user has stepped aside beyond the preset duration.

Step 107 : system in active use mode.
The prerequisite for step 107 is that the system is in the active use mode and the user has stepped aside beyond the preset duration. Step 107 deactivates the active use mode and then jumps back to step 100 .
In the preferred embodiment, step 107 may be performed by the control circuit that activates the power saving mode. After the user has stepped aside beyond the preset duration and when it is determined that the user will not be using the system, the circuit switches from the first mode to the second mode, which activates the preset configuration of the inactive use mode, such as lowering the output of the power supply or the frequency or deactivating part of the voltage source. The inactive usage mode can consist of preset functions or settings, such as a power saving mode or a fading out of the monitor screen. For example, the main unit deactivates the video signal from the monitor.

After a careful discussion of the preferred execution professionals can make modifications without the spirit and Depart from the scope of the claims and the present invention is not be on the embodiments described here limits. For example, you can also use the keyboard and mouse be used so that the user by touching the Keyboard or mouse resumes active use or that the user enters the active usage mode by touching the Keyboard or mouse disabled.

Claims (24)

1. Method for detecting a system mode, with:
Step 1: Detect the presence of the user in the vicinity of the system, then jump to step 2;
Step 2: determine if the user is nearby, and if the answer is affirmative, then jump to step 3, otherwise to step 5;
Step 3: return to Step 1 if the system is in active use mode, otherwise to Step 4;
Step 4: activate the active usage mode of the system and then go back to Step 1;
Step 5: to step 6 if the system is in active use mode, otherwise to step 1;
Step 6: Deactivate the active usage mode of the system and then go back to step 1. 2. The method for detecting a system mode according to claim 1, wherein there is an intermediate step between steps 3 and 4, so that it determines whether the user is still nearby after a pre-set duration, and to step 4 , if so, otherwise to step 1. 3. A method for detecting a system mode according to claim 1. an intermediate step between steps 5 and 6 is so that it determines whether the user is after a before set duration has left the vicinity, and for Step 6, if yes, otherwise to step 1. 4. The method for detecting a system mode according to claim 1. wherein a sensor carries out step I, the presence of the user and outputs the corresponding signals.   5. A method for detecting a system mode according to claim 4, wherein a microprocessor performs step 2, which the Receives sensor signals and determines whether the user is in the Is close. 6. The method for detecting a system mode according to claim 5. a control circuit performing steps 4 and 6, which activates the active use mode of the system or deactivated and an activating first mode and one has deactivating second mode. 7. The method for detecting a system mode according to claim 2 or 3, where a counter or timer to set a desired period is used. 8. A method for detecting a system mode according to claim 2, a jump to step 4 takes place if the user During the preset period, the keyboard or the Mouse touches. 9. A method for detecting a system mode, the steps for activating the active use mode of the system comprising:
Step 1: capture the presence of the user near the system, then jump to step 2;
Step 2: determine if the user is nearby and, if so, to Step 3;
Step 3: return to Step 1 if the system is in active use mode, otherwise to Step 4; and
Step 4: Activate the system's active usage mode and then go back to step 1. 10. The method for detecting a system mode according to claim 9. an intermediate step between steps 3 and 4 is so that it determines whether the user is after a  preset duration is still nearby, and at Step 4, if yes, otherwise to step 1. 11. A method for detecting a system mode according to claim 9. where step 4 is performed if the user the keyboard of the mouse during the preset period touched. 12. A method for detecting a system mode according to claim 9, the active usage mode being deactivated when the Users during the preset period Touched keyboard or mouse. 13. A method for detecting a system mode, the steps for deactivating the active use mode of the system comprising:
Step 1: Detect the presence of the user in the vicinity of the system;
Step 2: determine whether the user is no longer in the vicinity, then go to Step 3;
Step 3: to Step 4 if the system is in the active use mode, otherwise to Step 1;
Step 4: Deactivate active usage mode and then go to step 1. 14. A method for detecting a system mode according to claim 13. an intermediate step between steps 3 and 4 is so that it determines whether the user is after a before set duration is no longer nearby, and at Step 4, if yes, otherwise to step 1. 15. A method for detecting a system mode according to claim 13, the active use mode by touching the keyboard or the mouse is activated.   16. A method for detecting a system mode, with:
Implement a sensor that detects the presence of the user in the vicinity of the system and outputs corresponding signals;
Implementing a microprocessor that receives the sensor signals and determines whether the user is nearby and whether the active use mode of the system should be activated or deactivated; and
Implement a control circuit for activating or deactivating the active use mode, which has an activating first mode and a deactivating second mode. 17. A method for detecting a system mode according to claim 16. a signal amplifier is implemented therein. 18. A method for detecting a system mode according to claim 16. where a counter or timer is implemented to a preset period for the microprocessor to register and measure in time to determine whether the an turns around after such a period located. 19. A method for detecting a system mode according to claim 16. the sensor being an infrared transmitter / receiver sensor can. 20. A method for detecting a system mode according to claim 16. the sensor being an ultrasonic transmitter / receiver sensor can be. 21. A method for detecting a system mode according to claim 16. wherein the sensor is a detection device for detecting the Presence of the user.   22. A method for detecting a system mode according to claim 1, 9, 13 or 16, being near the system in front of the screen of the monitor means. 23. A method for detecting a system mode according to claim 1, 9, 13 or 16, where the active use mode is not energy is saving and the inactive use mode saves energy is. 24. A method for detecting a system mode according to claim 1, 9, 13 or 16, the active usage mode taking steps to Activate normal monitor operation and the inactive usage mode steps to hide the image screen of the monitor.