Patent Grant
7525473
This application claims the priority of Korean Patent Application No. 2004-1094, filed on Jan. 8, 2004 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein in its entirety by reference.
1. Field of the Invention
The present invention relates to an apparatus and method of setting a macro of a remote control, and more particularly, to an apparatus and method of setting a macro of a programmable remote control using a personal computer (PC).
2. Description of the Related Art
Functions of many devices and electronic equipment are controlled by remote controls. Therefore, if the number of devices increases, the number of remote controls also increases and a user must manage various remote controls.
To solve a problem of the troublesome management of various remote controls, a programmable remote control that can operate a plurality of devices has been suggested. The programmable remote control is realized using a conventional remote control, a hand held phone (HHP), or a portable terminal.
However, since functions of different electronic devices are varied and numerous, the number of function keys of a remote control has increased. Accordingly, the number of function keys of the programmable remote control and how many times a user is required to manipulate the function keys are increasing.
For example, when a recording list stored in a storage medium such as a hard disk drive (HDD) of a personal video recorder (PVR) is searched based on titles or dates, and when the searched item is reproduced or deleted, a recording list button, a search button, a title input button, a button to select the searched item, and a reproducing or deleting button must be sequentially controlled. Also, when a digital versatile disc (DVD) is reproduced, TV power on, DVD power on, TV external input change, and DVD reproduction mode control must be sequentially controlled.
To simplify the control procedure, a macro function of the programmable remote control has been suggested. The macro function is a function sequentially generating a string of commands corresponding to the sequentially controlled buttons as described above in a programmable remote control using one macro key. The macro key is a user defined key and is allocated to the remote control by macro functions. The string of commands is called a macro command.
However, a conventional programmable remote control can control functions of devices only after a learning function is performed, in which function keys of remote controls for each device are mapped to function keys of the programmable remote control. Accordingly, the learning function must be performed for all devices to be controlled in order to set desired macro functions and it takes too much time to perform the learning function.
Also, after the learning function is performed, macro names to be set must be defined. However, since function keys of a programmable remote control generally provide a very limited macro naming ability, it is difficult for the macro names to be variously set.
If a macro name is determined, devices and function keys that will be used for performing the macro are selected, and if the selection is finished, storing the selected devices and function keys finishes setting of the macro. At this time, if one of the devices and function keys happens to be wrongly selected or skipped, an editing process for correcting or inserting is complicated. For example, if a DVD is reproduced in a status that a TV external input change process is wrongly skipped, several function keys must be controlled to insert the TV external input change process between a DVD power on process and a DVD reproduction mode control process. Therefore, users must set a macro function again.
In accordance with an aspect of the present invention an apparatus and method for easily setting macro functions of a programmable remote control using a PC are provided.
According to an aspect of the present invention, there is provided an apparatus setting a macro of a remote control, the apparatus including: an input unit inputting data or commands; a display unit displaying the data input by the user and/or data that is able to be selected by the user; a data transceiver receiving data from the remote control and transmitting data to the remote control; a memory storing device names assigned by the user and a data file of device function control commands received from the remote control via the data transceiver; and a controller displaying on the display unit a list of the device names and the commands included in the data file stored in the memory when a macro name is input by the input unit and setting a command selected from the command list as a macro command corresponding to the macro name.
According to another aspect of the present invention, there is provided a method of setting a macro of a remote control, the method including: if a command for controlling a function of a device assigned by a user is required, receiving a data file including a plurality of command for controlling functions of the device from a remote control of the assigned device; storing the received data file and a name of the device; if a macro name is input by the user, displaying the stored device name and a list of the commands; and setting a command selected from the command list as a macro command corresponding to a macro name.
Additional aspects and/or advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
These and/or other aspects and advantages of the invention will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below to explain the present invention by referring to the figures.
The device group 100 includes first through nth devices 100_1 through 100—n. The first through nth devices 100_1 through 100—n are electronic equipment, such as TVs, DVDs, PVRs, Satellite dish systems (e.g. SKYLIFES, DIRECTV), cable set-top boxes (STBs), and camcorders, which are controllable by a remote control.
The remote control group 110 includes first through nth remote controls 110_1 through 110—n. The first through nth remote controls 110_1 through 110—n can remotely-control corresponding device functions using infrared rays (IR). Also, the first through nth remote controls 110_1 through 110—n are constructed so as to communicate with the PC 120 using a serial interface, such as a universal serial bus (USB), and/or a wireless interface such as IR. It is understood that other communication standards may be used like IEEE-1394, USB 2.0, Firewire, etc. Each of the first through nth remote controls 110_1 through 110—n can be a programmable remote control. Each of the first through nth remote controls 110_1 through 110—n has a data file including commands controlling functions of a corresponding device.
The data file can have a format such as shown in
The data file is transmitted to the PC 120 from a remote control in response to a request of the PC 120. The transmission is performed in data file units. Therefore, the size of a data file transmitted from the remote control to the PC 120 varies according to the number of commands included in the data file.
The PC 120 is constructed so as to be able to communicate with the first through nth remote controls 110_1 through 110—n included in the remote control group 110 and the programmable remote control 130 and performs a function of setting a macro of a remote control according to an embodiment of the present invention.
Referring to
The data transceiver 302 transmits data to the first through nth remote controls 110_1 through 110—n of the remote control group 110 and the programmable remote control 130 and receives data from the first through nth remote controls 110_1 through 110—n and the programmable remote control 130. Because the data transceiver 302 includes a communication protocol and a communication process for communicating with the first through nth remote controls 110_1 through 110—n and the programmable remote control 130, the data transceiver 302 matches sync with each remote control by connecting to each remote control using a serial interface, for example a USB, and/or a wireless interface, such as IR, and matching a data transfer rate with each remote control 110_1 through 110—n. Synchronization between each remote control 110_1 through 110—n and the PC 120 prevents data loss.
The memory 303 stores a device name assigned by the user and a data file including device control commands received from at least one of the remote controls 110_1 through 110—n via the data transceiver 302. When data files of a plurality of devices are stored, data files of device names and commands are stored in device units.
The display unit 304 displays data input by the user and/or data that can be selected by the user. The user can generate a macro command by selecting devices and commands required to set a desired macro function on the basis of the data displayed on the display unit 304 and perform an editing function of correcting, deleting, or inserting the desired macro command.
That is, when a data file including commands is received from a remote control, a screen displayed on the display unit 304 is the exemplary embodiment of the present invention shown in
A command list window shows a command list of a cable STB selected among the device names displayed in the device name window. The command list is a list of commands included in a data file received via the data transceiver 302 by selecting a cable STB in the device name window and clicking a command fetch button.
If the user checks the command list and clicks an add button, the cable STB is added to the device list window, and a device name of the cable STB and a set of the commands displayed in the command list window are stored in the memory 303.
A device select window shows names of devices currently stored in the memory 303. A command select window shows a list of commands allocated to a device name among the device names displayed on the device select window. A user can select a device and a device control command required to set a macro with reference to list of commands.
A macro name window shows a name of a macro to be set.
When a macro name and a macro command are clearly set, the user clicks a send button. Accordingly, the set macro name and macro command are transmitted to a relevant remote control. The relevant remote control can be one of the programmable remote control 130 or the first through nth remote controls 110_1 through 110—n included in the remote control group 110. Add, delete, and delay buttons are used when the macro command displayed on the macro command list window is edited.
If a data file including commands controlling functions of a device is requested via the input unit 301, the controller 305 connects a remote control of the device and the PC 120 so that it is possible to communicate between the remote control and the PC 120. The controller 305 receives the requested data file including commands from the remote control, and stores the received data file in the memory 303 while simultaneously displaying a command list included in the data file on the display unit 304. At this time, the controller 305 builds the command list using text names (refer to
If a plurality of devices are managed by a remote control, since data files including command controlling functions of the devices are received via the data transceiver 302 in device units, the controller 305 displays the commands included in the data files received in the device units on the display unit 304 and stores the data files and the device names together in the memory 303.
When a data file including commands controlling functions of a device assigned by the user is received, the controller 305 displays device names that have been assigned by the user on the device list window as shown in
Also, if a macro name is input via the input unit 301, the controller 305 displays names of devices stored in the memory 303 and a list of commands included in a data file on the display unit 304 and sets commands selected from the command list as a macro command corresponding to a macro name. The controller 305 transmits the macro command and the macro name to a remote control via the data transceiver 302. At this time, the remote control can be one of the programmable remote control 130 or the first through nth remote controls 110_1 through 110—n.
When the controller 305 transmits the macro command and the macro name to a remote control, the controller 305 can determine according to a command of the user (e.g., the sync button) whether it writes the macro name and the macro command in the remote control regardless of whether or not the macro name and macro command exist in the remote control or writes the macro name and macro command in the remote control only if the same macro name and macro command are not in the remote control and transmit the determined information to the remote control. The determined information is set according to whether the user clicks the sync button of
The controller 305 displays the set macro command list on the display unit 304, and if a user requires editing of the macro command list, such as inserting a new macro command, deleting a macro command, or setting a delay function, the controller 305 inserts the new macro command, deletes the macro command, or sets the delay function at a position assigned by the user in the macro command list.
If the user requires the programmable remote control 130 to learn to remotely-control the first through nth devices 100_1 through 100—n included in the device group 100, the controller 305 causes the programmable remote control 130 to learn by transmitting a data file corresponding to one of the first through nth devices 100_1 through 100—n stored in the memory 303 to the programmable remote control 130 via the data transceiver 302. The data file is transmitted in device units.
When the programmable remote control 130 can remotely-control the first through nth devices 100_1 through 100—n included in the device group 100, the programmable remote control 130 can receive a macro name and macro command set by the PC 120 and transmit data files including commands of a plurality of devices to be managed to the PC 120 in response to a request of the PC 120. Also, as described above, the programmable remote control 130 can receive data files including commands possessed in the first through nth remote controls 110_1 through 110—n included in the remote control group 110 from the PC 120 and learn with respect to the first through nth remote controls 110_1 through 110—n.
It is understood that the screens shown in
The controller 305 determines whether a user assigns a device in operation 601. If it is determined that a device is assigned in operation 601, the controller 305 determines whether receiving of commands of the assigned device is required in operation 602. If it is determined that the receiving of the commands is required in operation 602, the controller 305 receives a data file of the commands from a remote control in operation 603. In operation 603, a communication process is performed between the PC 120 and the remote control as shown in
Referring to
The remote control returns the communication rate to the PC 120 in operation 704 because it is easier to control the communication rate in the PC 120. However, it is possible to control the communication rate from the remote controls. If a data transfer rate is controlled in the PC 120 on the basis of the returned communication rate, the PC 120 requests a data transmission from the remote control in operation 705.
The remote control transmits information regarding a number of electronic devices (i.e., first through nth devices 100_1 through 100—n) to the PC 120 in operation 706. The number of electronic devices can be one or more. The remote control transmits data size information of a data file including commands of a particular device to be transmitted to the PC in operation 707 at first because the data size can vary according to the number of commands. The data size information can be, for example, a size of the data file including all the commands of the device.
The PC 120 transmits an OK message to the remote control in operation 708. The remote control transmits the data file to the PC 120 in operation 709. If the PC 120 clearly receives data on the basis of the set data size, the PC 120 transmits an OK message to the remote control in operation 710. At this time, after the PC 120 transmits the OK message, the PC 120 stores the received data file in the memory in operation 604 and displays the received data file on the display unit 304 as described in
If there is another data file to transmit from the remote control to the PC 120, the communication process returns to operation 707 and is repeated between the remote control and the PC 120 in operation 711 until no additional data files are transmitted.
If a macro name is input by a user in operation 801, selectable device names are displayed in operation 802. The selectable device names are names of devices stored in the memory 303.
If the user selects a device name among the selectable device names in operation 803, a command list of the selected device is displayed in operation 804. If the user selects a command from the displayed command list in operation 805, the selected command is set as a macro command and simultaneously displayed on the macro command list window of
The PC 120 transmits a data receive request or a data sync request to the remote control in operation 901. The sync request is a result of clicking the sync button of
If the remote control transmits an OK message to the PC 120 in operation 902, the PC 120 transmits size information of data to be transmitted to the remote control in operation 903. If the remote control transmits an OK message to the PC 120 in operation 904, the PC 120 transmits the macro name and the at least one macro command to the remote control in operation 905. If the remote control receives the macro name and macro command without error, the remote control transmits an OK message to the PC 120 in operation 906.
Before the communication process of
As described above, according to aspects of the present invention, since macro functions are set using a PC, a macro name can be set with various patterns.
Also, according to aspects of the present invention, since commands (or function keys) of a remote control of a device to be controlled are changed to texts, the commands are transmitted to a PC in device units, and the PC transmits the commands to a programmable remote control in device units, a learning function for a remote control of each device to be controlled can be performed easily and rapidly.
Also, according to aspects of the present invention, since macro functions are set and edited using command (or function key) information of a remote control of each device to be controlled, which is loaded and displayed on a PC, the macro functions are easily set and edited.
It is understood that the embodiments of the present invention described above can be written as computer programs and can be implemented in general-use digital computers that execute the programs using a computer readable recording medium. The computer readable recording medium is any data storage device that can store data which can be thereafter read by a computer system. Examples of the computer readable recording medium include magnetic storage media (e.g., ROM, floppy disks, hard disks, etc.), optical recording media (e.g., CD-ROMs, or DVDs), and storage media such as carrier waves (e.g., transmission through the Internet).
Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
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