WO2005059766A2 - Pocket device for wireless receiving and delivering - Google Patents

Abstract

The invention provides a pocket device for wireless receiving and delivering, which receive information by a wireless transmitting protocol, then transform the received information to conform to at least one wireless transmitting protocol, finally transmit the transformed information in a wireless mode. The pocket device can also transform a three-dimension data of the received information to a two-dimension data. The pocket device can further process content information of the received information according to command information of the received information. This invention can act as a transceiver to make the touchless three-dimension pen or similar input device communicate with other wireless devices in an extensive range, while it can supply the power for the touchless three-dimension pen or similar input device to lengthen life-span of batteries of the touchless three -dimension pen or similar input device. The transceiver has a small volume, so that it is easy to carry and move.

Description

POCKET DEVICE FOR WIRELESS RECEIVING AND DELIVERING

Technical Field

The present invention relates to an electronic device, and more particularly relates to pocket device for wireless receiving and delivering.

Touchless 3D Pen is a handwritten input device using a method of three- dimension handwritten recognition, which allows the user to write freely in a three- dimension space by a touchless method without any physical media, such as a scratchpad or a clipboard, etc. The input device brings to the user great flexibility and convenience, and releases the user from the physical media which is required for two-dimension handwritten recognition.

The Chinese patent applications NO.02144248.7 (filed on Sep.28th,2002 by the inventors Du Yonggang, Tu Jiawen, Feng Lei and Shao Xiaoling) and NO.02159784.7 (filed on Dec.26th,2002 by the inventors Shao Xiaoling, Tu Jiawen and Feng Lei) have disclosed a method and system of three-dimension handwritten recognition (here the disclosure of above two patent applications are incorporated as reference). The system can track the user's handwritten input in a three-dimension space, produce corresponding three-dimension motion data, construct a three-dimension track, and further project the three-dimension track to a two-dimension plane to produce corresponding two-dimension image for handwritten recognition. The touchless 3D Pen technology greatly enhances the ability of performing recognition from three-dimension (3D) characters to two-dimension (2D) characters in various environment, and simultaneously this technology further enhances the ability of decomposing a 2D character into a single character unit. Additionally a touchless 3D Pen may transmit the produced information in a wireless mode.

There is a plurality of wireless transmission protocols in the prior wireless technology. If a touchless 3D pen has a function of adopting a plurality of wireless transmission protocols to transmit information, the touchless 3D Pen will have complicated components, thereby loosing its flexibility and increasing the power consumption of the 3D Pen. Therefore, there is need of a device which may reduce and/or lengthen the lifetime of the batteries of the Touchless 3D Pen at the lowest extent and simultaneously act as a transceiver between the Touchless 3D Pen and other wireless devices.

Contents of Invention

An object of the present invention is to improve above patents for invention by providing a pocket device for wireless receiving and delivering, which may act as a transceiver between the Touchless 3D Pen or a similar device and other wireless devices. Moreover, it has a small volume and is easy to be carried and moved. The present invention provides a new type of pocket device for wireless receiving and delivering, comprising a wireless receiving unit, a data processing unit and a wireless transmitting unit. The wireless receiving unit is used for receiving information transmitted from an input device by a wireless transmission protocol. The data processing unit is used for transforming and processing the received information, and transforming the received information to conform to at least one wireless transmission protocol, and the data processing unit has a function of transforming the received information to conform to a plurality of wireless transmitting protocols. The wireless transmitting unit is used for transmitting the transformed information in a wireless mode.

The data processing unit may also be used for transforming a three- dimension data of the received information to a two-dimension data. The data processing unit may further be used for processing content information of the received information according to command information of the received information.

The pocket device for wireless receiving and delivering further comprises a charging circuit unit for charging the input device.

The pocket device for wireless receiving and delivering of the present invention is capable to acting as a transceiver to make the touchless 3D Pen or a similar input device communicate with other wireless devices in an extensive range, moreover, it has a small volume and is easy to be carried and moved, and simultaneously it is capable of providing power supply to the touchless 3D Pen or a similar input device, as well as lengthening the lifetime of the batteries of the touchless 3D Pen or a similar input device. Moreover, while not used, the pocket device for wireless receiving and delivering may also be used for storing or containing the touchless 3D Pen or a similar input device.

Other objects and advantages of the present invention should be apparent and the invention should be more comprehensively appreciated from the following description and claims in conjunction with the accompanying drawings.

Brief description of drawings

The present invention will be explained in detail by way of examples in conjunction with the accompanying drawings, wherein:

Figure 1 is a structural schematic diagram of an application system of the pocket device for wireless receiving and delivering in accordance with one embodiment of the present invention;

Figure 2 is a structural schematic diagram of the touchless three-dimension input device in accordance with one embodiment of the present invention;

Figure 3 is a structural schematic diagram of the pocket device for wireless receiving and delivering in accordance with one embodiment of the present invention;

Figure 4 is a flow diagram of the pocket device for wireless receiving and delivering processing the data in accordance with one embodiment of the present invention; Detailed description of the invention

The present invention will be further explained as follows in conjunction with the accompanying drawings and embodiments. Figure 1 is a structural diagram of an application system of the pocket device for wireless receiving and delivering in accordance with one embodiment of the present invention. The system comprises a touchless three-dimension input device 300, a pocket device 100 for wireless receiving and delivering, and a hosting device 400. The touchless three-dimension input device 300 may be a touchless 3D

Pen, or other similar devices.

The pocket device 100 for wireless receiving and delivering may receive the information by a wireless transmission protocol, such as Bluetooth, transform and process the received information to conform to at least one wireless transmission protocol, such as Zigbee, 802.11 , NFC (Near Field Communication), etc., and finally transmit the transformed information in a wireless mode. The pocket device 100 for wireless receiving and delivering may further transform a three-dimension data of the received information to a two-dimension data, or process co ntent information of the received information according to command information of received information.

The hosting device 400 is a PC, Mobile Phone, palmtop computer, notebook PC or network computer with wireless port, which supports the touchless three-dimension input device 300, and the hosting device 400 is equipped with application software that adapt to the Touchless three-dimension input device 300.

First, the communication is established between the touchless three- dimension input device 300, the pocket device 100 for wireless receiving and delivering, and the hosting device 400. The hosting device 400 is activated directly by setting a button on the touchless three-dimension input device 300 or on the pocket device 100 for wireless receiving and delivering. A lternatively, after the touchless three-dimensional input device 300 inputs a user's password, the hosting device 400 verifies the user's password using a hard key security code of the pocket device 100 for wireless receiving and delivering, and initializes the system.

Next, the touchless three-dimension input device 300 inputs a variety of information comprising command information and content information on a piece of paper, a surface or in the air, and transmits the information to the pocket device 100 for wireless receiving and delivering in a wireless mode by a wireless transmission protocol, such as Bluetooth, etc. The pocket device 100 for wireless receiving and delivering receives the information by a wireless transmission protocol, transforms and processes the received information to conform to at least one wireless transmission protocol and transmits the transformed information to the hosting device 400 in a wireless mode.

Figure 2 is a structural schematic diagram of the touchless three-dimension input device in accordance with one embodiment of the present invention. The touchless three-dimension input device 300 comprises an inducting device 310, command producing device 320 and an outputting device 330.

The inducting device 310 is used for detecting three-dimension motion and producing three-dimension motion information . The command producing device 320, which may be a set of buttons, is used for producing command information.

By pressing one of the buttons, the touchless three-dimension input device 300 may produce command information, which may be that for performing a deleting operation or for activating a certain application, etc. The outputting device 330 is used for transmitting the produced three-dimension motion information and the command information in a wireless mode.

Figure 3 is a structural schematic diagram of the pocket device for wireless receiving and delivering in accordance with one embodiment of the present invention. The pocket device 100 for wireless receiving and delivering comprises a wireless receiving unit 110, a data processing unit 120 and a wireless transmitting unit 130.

The wireless receiving unit 110 is used for receiving information transmitted from the touchless three-dimension input device 300 by a wireless transmission protocol, such as Bluetooth. The received information may include command information and content information, and the latter may be three-dimension data produced during three-dimension handwritten recognition.

The data processing unit 120 is used for transforming and processing the received information, and transforming the information to conform to at least one kind of wireless transmission protocol. The data processing unit 120 has the function of transforming the received information to conform to a plurality of wireless transmission protocols, such as Zigbee, 802.11 , NFC, etc.

The data processing unit 120 may be further used for transforming the three-dimension data contained in the information received by the wireless receiving unit 110 to the two-dimension data. The transforming process is depicted in detail in figure 4. The data processing unit 120 may be further used for processing the content information of the received information according to the command information of the information received by the wireless receiving unit 110, for example, deleting part of the content information. The wireless transmitting unit 130 is used for transmitting the information processed by the data processing unit 120 to the hosting device 400 in a wireless transmitting mode, which is one of wireless transmitting modes transformed by the data processing unit 120.

The pocket device 100 for wireless receiving and delivering further comprises a memorizer 140, a control circuit unit 150, a power circuit unit 160 and a charging circuit unit 170.

The control circuit unit 150 is connected to each unit of the pocket device 100 for wireless receiving and delivering respectively, for realizing the communication between each unit of the pocket device 100 for wireless receiving and delivering, i.e., the wireless receiving unit 110, the data processing unit 120, the wireless transmitting unit 130, the memorizer 140, the power circuit unit 160 and the charging circuit unit 170. For example, the time sequence control or the speed matching between the wireless receiving unit 110 and the data processing unit 120 is performed under the control of the control circuit unit 150.

The memorizer 140, which is connected to the wireless receiving unit 110, the data processing unit 120, the wireless transmitting unit 130 and the control circuit unit 150 respectively, is used for storing the information received by the wireless receiving unit 110 or the information produced during the process of the data processing unit 120 under the control of the control circuit unit 150, particularly for temporarily storing and backing -up the data while the communication between the wireless transmitting unit 130 and the hosting device 400 is blocked (See Fig. 1), and for transmitting the data to the hosting device 400 by the wireless transmitting unit 130 in the wireless transmitting mode on proper occasion, for example, when the communication is recovered.

The power circuit unit 160, which is connected to the control circuit unit 150, is used for supplying the operating power for the whole pocket device 100 for wireless receiving and delivering. The power circuit unit 160 may be connected to each unit of the pocket device 100 for wireless receiving and delivering by the control circuit unit 150, i.e., the wireless receiving unit 110, the data processing unit 120, the wireless transmitting unit 130, the memorizer 140, the power circuit unit 160 and the charging circuit unit 170, and supply them with continuous power to ensure the whole pocket device 100 for wireless receiving and delivering operates normally.

The charging circuit unit 170, which is connected to the control circuit unit 150, is used for charging the power supply of the touchless three-dimension input device 300 under the control of the control circuit unit 150, when the touchless three-dimension input device 300 (See Fig. 1) is connected to the charging circuit unit 170.

The pocket device100 for wireless receiving and delivering may also be used for storing or containing the touchless 3D Pen or similar input devices, when it is not used.

Figure 4 is a flow diagram of the pocket device for wireless receiving and delivering processing the data in accordance with one embodiment of the present invention. First, the pocket device100 for wireless receiving and delivering receives a wireless information in the wireless mode (step S210) by a wireless transmitting protocol, such as Bluetooth, etc. The information may include command information and content information, and the latter may be three-dimension data produced during three-dimension handwritten recognition. Next, judging whether the transforming from three-dimension data to two- dimension data (step S220) is required or not according to the command information of the received information.

If the transforming from three-dimension data to two-dimension data is not required, judging whether the received information is required to be temporarily stored or not (step S270) based on the command information of the received information from the wireless receiving unit 110 (shown in figure 3) or a feedback information while the communication between the wireless transmitting unit 130 (shown in figure 3) and the hosting device 400 (shown in figure 1) is blocked. If the received information is required to be temporarily stored, then the information is stored (step S290) and the operation is ended (step S300). If the received information is not required to be temporarily stored, then the transformation of the wireless transmitting mode is performed (step S275), the information is transmitted in a transformed wireless transmitting mode (step S280) and the operation is ended (step S300).

If the transforming from a three-dimension data to a two-dimension data in step S220 is required, then the three-dimension acceleration information of the 3D data is first obtained from the received information (step S230), next a three- dimension coordinate of each point is computed according to the three-dimension acceleration information of the 3D data (step S240), then a three-dimension motion track of the 3D data is described according to the three-dimension coordinate of each point of the 3D data (step S250), and finally the three- dimension motion track of the 3D data is projected to a two-dimension plane to obtain a projected two-dimension track of the 3D data (step S260).

In step S275, the wireless transmitting mode may be transformed to one or more kinds of Zigbee, 802.11 , NFC, etc. Of course, the wireless transmitting mode may also be not transformed, however, the information to be sent is still transmitted in the wireless transmitting mode that is used for receiving.

Then, judging whether to temporarily store the processed information or not (step S270). If so, the processed information is stored (step S290) and the operation is ended (step S300). If not, the wireless transmitting mode is transformed (step S275), the processed information is sent in the transformed wireless transmitting mode (step S280), and the operation is ended (step S300).

Of course, all or part of the above data processing process may also be processed by the hosting device 400 (shown in figure 1). The foregoing description of the detailed embodiments of the present invention has been presented for purposes of illustration and description. Many replacements, modifications and variations are apparent to a person skilled in the art in light of the above teachings. Therefore, when such replacements, modifications and variations fall into the spirit and scope of the appended claims, they should be included in the present invention.

Claims

WHAT IS CLAIMED IS:

1.A pocket device for wireless receiving and delivering, comprising: a wireless receiving unit for receiving information by a wireless transmitting protocol; a data processing unit for transforming the received information to conform to at least one wireless transmitting protocol, and the data processing unit having a function to transform the received information to conform to a plurality of wireless transmitting protocols; and a wireless transmitting unit for transmitting the transformed information in a wireless mode.

2. The pocket device for wireless receiving and delivering according to claim 1 , wherein the received information comprises a three-dimension data, and said data processing unit transforms the three-dimension data to a two-dimension data.

3. The pocket device for wireless receiving and delivering according to claim 1 , wherein the received information comprises command information and content information, and said data processing unit processing the content information according to the command information.

4. The pocket device for wireless receiving and delivering according to claim 1 , further comprising a memorizer for storing information.

5. The pocket device for wireless receiving and delivering according to claim 1 , further comprising a controlling circuit unit for controlling communication between each unit.

6. The pocket device for wireless receiving and delivering according to claim 1 , further comprising a power circuit unit for supplying a power for each unit.

7. The pocket device for wireless receiving and delivering according to claim 1, further comprising a touchless input device, which further comprises: a three-dimension motion sensor for producing information in response to a three-dimension motion; and an outputting device for transmitting the produced information in a wireless mode. i

8. The pocket device for wireless receiving and delivering according to claimed 7, further comprises a charging circuit unit for charging said input device.

9. A wireless transmitting and receiving method, comoprising the following steps: a. receiving information by a wireless transmitting protocol; b. transforming the received information to conform to at least one wireless transmitting protocol; c. transmitting the transformed information in a wireless mode.

10. The wireless transmitting and receiving method according to claim 9, further comprising the step: processing content information of the received information according to command information of the received information.

11. The wireless transmitting and receiving method according to claim 9, further comprising the step: transforming a three-dimension data of the received information to a two- dimension data.

12. The wireless transmitting and receiving method according to claim 11 , wherein said step which transform s the three-dimension data of the received information to the two-dimension data, comprises: a. obtaining three -dimension acceleration information from the received information; b. calculating a three-dimension coordinate of each point according to the three-dimension acceleration information; c. describing a track of the three-dimension motion according to the three- dimension coordinate of the each point; d. projecting the track of the three-dimension mo tion to a two -dimension plane to obtain a projected two-dimension track.

13. A touchless input device, comprising: an inducti ng device for detecting a three-dimension mo tion and producing information in response to the three-dimension motion; a command producing device for producing command information; an outputting device for transmitting the produced three-dimension motion information and the command information in a wireless mode.