DE102005021389A1 - End device e.g. personal computer, operating method, involves automatically adapting wake-up time to need of users of end devices as far as wake-up time is respectively adjusted before starting of work of user, which is to be expected - Google Patents

Abstract

The method involves initiating a start up of end devices or clients e.g. personal computer (3), printer (4) and scanner/copier (5), in an operation mode. A wake-up time is automatically adapted to the need of users of end devices as far as the wake-up time is respectively adjusted before the starting of the work of the user, which is to be expected. The end devices are combined to an intranet for data exchange at the wake-up time. An independent claim is also included for a system for executing a method of operating an end device such as computer, scanner, printer, and/or a copier.

Description

The The present invention relates to a method for operating a a computer unit equipped terminal, in particular a computer, a scanner, a printer and / or a copying machine, the terminal containing a powered also in sleep mode core component a microcontroller, wherein from the core component to an alarm is initiated, the booting of the device in the operating mode. The invention also relates to a system for implementing the method.

programs, the data over send the network to "sleeping" clients, to "wake them up" are under the name "Wake on LAN "you allows it, the client on the local network (LAN) from a server via Turn on the data packet. It can be central or decentralized from Users (users) are set at what time such Package to the respective client via the local network is sent. The terminal whose LAN address is using the matches the address contained in the package, then drives correspondingly high while the remaining clients unaffected. Such a wake-up is also over multiple networks (WAN) possible. Such programs enjoy automatic waking up of the terminals greater Popularity, as it sometimes gives the user the long and therefore special tiresome Save time of booting up your terminal when starting work. Especially for Printers, faxes, copiers and, if necessary, for measuring equipment, which only must be brought to high operating temperature, such is taken over from the server Wake up service advantageous.

adversely at the well-known programs is however that the alarm time for the respective terminal is either fixed or that the awakening, so the sending the awakening suitable data packet, must be done manually. Though can the alarm times are changed from day to day alternately on the server, but this manual setting involves a similar amount of effort like the daily Start anew. Deviations from regular working hours, e.g. public holidays or vacation, increase the effort again.

task It is now the object of the present invention to provide a method that can be implemented inexpensively with simple and existing means lets and that, without special settings, one to the individual User customized automatic startup of individual to the network connected clients. It is also the task System to implement the method.

These Tasks are performed by a method having the features of the claim 1 and a system having the features of claim 10. advantageous Embodiments are mentioned in the respective subclaims.

Of the The essential basic idea of the invention lies in the fact that the method determines "wake-up times" itself, where it is the actual or at least the anticipated presence of a user. This is the alarm time according to the invention automatically according to the needs of the client or the terminal Users adapted. With that taken into account the process or the one installed to carry out the process Program, a correlation between the actual or the expected Presence of the user and the alarm time. Thus, the invention leads to a constantly updated setting of the alarm time in the sense of an adaptation.

The Method can be used as an adaptive algorithm on a network independent PC or any other device equipped with an "intelligence" feature become. This is for example in the permanently awake core component a microcontroller with real time clock installed, taking on one such chip the adaptive program is running.

Especially but it is advantageous if multiple terminals via a network, in particular an intranet completed within an institution for data exchange with a central ("awake") server, which has access to the other terminals (clients), whereby clients have an energy-efficient sleep mode in which the necessary for the operation Components are turned off, with clients also being in sleep mode having power supplied core component, wherein at an alarm time a data packet from the server via the network is sent to the core component that is booting initiated by the client in the operating mode.

In general, this adaptation of the wake-up time can be done in two ways: on the one hand, the method can use an "adaptive" learning process to determine a favorable wake-up time to power up the client before the user wishes to use it the method for initiating the system startup of technical signals that the user sends out before his arrival at the workstation, in any case it is possible with the invention in a manner optimized with regard to the actual need to start the respective client on each working day shortly before the start of work of the user, so that the annoying waiting time for the cold start is saved.

in the Case of adaptive learning, the system determines from the times to which the clients are started manually, the "usual" on-times and starts the client accordingly shortly before for this Day predetermined usual Starting work. This is on the server a wake-up program with a realizes the alarm time calculating alarm, which is the Wake up a client by sending a data packet triggers. the Wake-up program it is possible to recognize that the user has manually turned on the client, or started by the wake-up client actually started has to use, whereby it registers the time of manual switching on. Out the over a period of time is determined by means of a wake-up function implemented learning algorithm determines the next alarm time. there it is an advantage if the startup time is determined when determining the alarm time needed Time of the individual client considered is, in particular, the startup time of the arrival time of the user deducted at the workplace. So the alarm time can meet the needs optimally adapted to both the user and the individual client become.

From It is also particularly advantageous if the wake-up program after startup the client also the actual Use of the client registered by a user to know if ever need exists on the client. If within a specified period after the startup of the client no usage is registered, can the "wake-up program" by sending a corresponding data packet shutting down the client initiate sleep mode. It is beneficial when the operations of the automatically initiated shutdown of the learning algorithm registered and included in the modification of the alarm function become (adaptation). This can be a holiday or illness-related Absence of the user to be determined. If after multiple initiated shutdown detected a prolonged absence is and no information regarding the expected return the user is present, the alarm is advantageously completely disabled.

The Alarm function can also be used for shorter usage cycles be used. Thus, a corresponding data packet can also be sent if, after an original Use a certain period of non-use, for example because of a lunch break, has occurred. With adaptive learning, but also due to a "presence signal", the end of the Lunch break determined and the client started up again accordingly become.

In summary Thus, the system recognizes how large the spread of the times of the daily work starts is and determines the required lead time to turn it on and the overrun time to shut down. After a few days of disuse The system also learns a vacation-related or illness-related absence the user or the usual Lunch breaks. It can the parameters for the learning period, for example in which period (for example, daily, weekly) the turn-on times repeat, and the learning speed (Inertia), how fast the system changes of the switch-on time, be determined in advance.

The Advantages of the invention are that by the previously by the startup and shutdown the clients needed Unproductive working time is saved. Now the client can before the usual Start of work at least until the required entry of the access authorization be started up automatically. Here are the increased electricity costs across from the savings in the payroll costs for the unproductive Working hours negligible. The "multiple adaptive "algorithm minimizes the pre and post run times as well as the administrative ones Effort. A particular advantage of the invention lies in the fact that that they mostly use the existing resources, ie the existing ones Hardware, can be implemented. There are hardly and in particular no special components necessary however, the clients also said that in sleep mode with power supplied with the core component, which is provided by the wake-up program via the Server can be controlled.

In the second embodiment of the invention, the method and system uses to initiate the up or down travel of technical signals that the user transmits prior to his arrival at the workstation. In this embodiment, the triggering wake-up program is assigned a start function, wherein this start function receives the user-individual signal from a sensor means connected to the network, which correlates with the appearance of the user, the start function sending the data packet after receiving the signal. As such sensor means may serve all the sensors associated with the server, wherein it is particularly advantageous to use an ehedem existing closing direction or a time recording system for these purposes. For example, in many companies, closing directions are already used, in which the employee identifies himself via a chip with an individual transponder before the door opens. The signal for opening the door assigned to the user can just as well be sent to the server and initiate the booting there with the start function. Also, the terminals of a time recording system can be used, wherein register them as soon as the employee leaves the company. Shutdown can also be initiated with this signal. Of course, a combination of adaptive learning and the sensor-assisted solution can also be used.

The invention will be described below with reference to FIG 1 and 2 explained in more detail. Show it:

1 a system for implementing the method according to the invention and

2 a flow chart of the method according to the invention

1 shows a system with a central server 1 and several via a data line network 2 with the server 1 connected clients, these being from PCs 3 , a printer 4 and a scanner / copier 5 be formed. Each of these clients has a core component 6 on, even in sleep mode via the power cord 7 is powered and allows a data transfer over the network. On the server 1 is a function realized that at a wake-up time a data packet 8th sends over the net, which with its identification to a certain core component 6a and initiates a boot into operating mode at the appropriate client. This feature detects and registers a user's manual start-up and automatically adjusts wake-up times based on the registered values according to the needs of the user using the client. There is also a sensor means associated with the server 9 provided that detects the presence of the user based on a user-specific identifier and transmits the server a signal that causes the dispatch of the data packet.

2 shows a flowchart of the inventive method, which is realized by a program running on the server. This program will be first 10 Default settings, in particular the period duration and inertia, predetermined for the individual clients. The program controls constantly 11 whether the startup time for one of the clients is reached in a short time. If yes, the affected client is booted over the network 12 , After the start is determined 13 whether a wait for actions on the client has been exceeded. With "yes", the affected client is shut down again by means of a data packet sent by the server via the network 14 , The system learns the absence. If "no" is looked up 15 whether the booting of the client is completed by entering a password. If yes, startup is completed, with an adaptation taking place, using a function that depends on the old start of normal working time, current time, dispersion, punctuality, and inertia for the new standard working time start of the working day model "No" the program goes back to the query of the waiting time.

If the program at 11 determines that the start time of the client has not been reached, it determines with 16 whether a manual start was made. If "yes", this client will be set to have a new normal working time start for this day of the working time model 17 with the function mentioned depending on the old standard working time start, the current time, the dispersion, the punctuality and the inertia. Then this "adaptation loop" begins 18 again. If no manual startup has taken place, the system will inquire about the upcoming start time.

Claims (12)

Method for operating a terminal equipped with a computer unit ( 3 . 4 . 5 ), in particular a computer, a scanner, a printer and / or a copier, the terminal ( 3 . 4 . 5 ) a core component also powered in sleep mode ( 6 ) comprising a microcontroller, wherein of the core component ( 6 ) at an alarm time the startup of the terminal ( 3 . 4 . 5 ) is initiated in the operating mode, characterized in that the alarm time in so far automatically to the needs of the terminal ( 3 . 4 . 5 ) user is adjusted when the alarm time is set in each case before the expected start of work of the user. Method according to claim 1, characterized in that a plurality of terminals ( 3 . 4 . 5 ) are connected to a network, in particular a closed intranet for data exchange, wherein a central server ( 1 ), access to the other terminals operating as clients ( 3 . 4 . 5 ), whereby the server ( 1 ) at alarm time a data packet ( 8th ) via the network to the core component ( 6 ) of the client ( 3 . 4 . 5 ), the data packet ( 8th ) booting the client ( 3 . 4 . 5 ) into the operating mode. Method according to claim 1 or 2, characterized in that on the terminal ( 3 . 4 . 5 ) or on the server ( 1 ) a wake-up alarm program is implemented with a wake-up time calculating alarm function, wherein the wake-up program, a manual switching on the terminal ( 3 . 4 . 5 ) continuously registered by the user over a period of time, wherein the alarm function has a learning algorithm, which is based on the re Registered switch-on determines the alarm and gives the alarm function. A method according to claim 3, characterized in that the wake-up program the actual use of the terminal or client ( 3 . 4 . 5 ) registered by a user and in case of non-use over a certain period of time the shutdown of the client ( 3 . 4 . 5 ) into sleep mode. Method according to claim 4, characterized in that that the operations the automatically initiated shutdown of the learning algorithm registered and included in the modification of the alarm function become. Method according to claim 5, characterized in that a multiple initiated shutdown will alarm the alarm disabled. Method according to one of the preceding claims, characterized in that when determining the alarm times the startup time of the terminal or client ( 3 . 4 . 5 ) is taken into account, in particular, the startup time is deducted from the arrival time of the user at the workplace. Method according to one of the preceding claims, characterized in that the parameters required by the wake-up program, in particular the learning period and / or the learning speed, on the part of the user be specified. Method according to one of the preceding claims, characterized in that on the server ( 1 ) the awakening of a client ( 3 . 4 . 5 ) is realized by sending a data packet triggering wake-up program with a start function, wherein the start function of a connected to the network sensor means ( 9 ), in particular a closing device or a time recording system, receives a transmitted signal which correlates user-individually with the appearance of the user, wherein the start program receives the data packet after receipt of the signal ( 8th ). System in particular for carrying out the method according to one of the preceding claims, comprising a central server ( 1 ) and several via a data line network with the server ( 1 ) connected clients ( 3 . 4 . 5 ), whereby the clients ( 3 . 4 . 5 ) a core component ( 6 ), which is also powered in sleep mode and which allows a data transfer over the network, wherein on the server ( 1 ) a function is implemented, which at a wake-up time a data packet ( 8th ) via the network to the core component ( 6 ), whereby the data packet ( 8th ) booting the client ( 3 . 4 . 5 ) in the operating mode, characterized in that on the server ( 1 ) implemented a manual startup of the client ( 3 . 4 . 5 ) recognized and registered by the user, the function based on the registered values, the alarms automatically according to the needs and / or habits of the client ( 3 . 4 . 5 ) user. System according to claim 10, characterized by a with the server ( 1 ) associated sensor means ( 9 ), which detects the presence of the user on the basis of a user-specific identifier and the server ( 1 ) transmits a signal indicating the dispatch of the data packet ( 8th ). System according to claim 10, characterized in that the sensor means ( 9 ) Is part of a closing device or a time recording system.