TWM410314U - A status recorder for use with a sensor built in a hand held device - Google Patents

Abstract

Disclosed is a status recorder for use with a sensor built in a hand-held device to analyze the sensed data and record the status information on the object of the hand-held device, comprising a data-collecting module for collecting data acquired by the sensor built in the hand-held device; a calculating module for analyzing the sensed data and calculating the status information on the object by an algorithm; and a storage module for storing and recording the status information on the object, thereby analyzing, integrating, transmitting and storing the sensed data of the hand-held device in real time and providing a status-recording function to users.

Description

M410314 V. New Description: [New Technology Field] This creation is about a state recorder. More specifically, it is about storing and integrating the sensing data sensed by the built-in sensing components of the handheld device. Status applied to driving, action or record keeping [previous technology] 'With the rapid development of technology, the functions of smart phones or handheld devices are becoming more diverse, in addition to providing photography functions, The sensing device of the mobile device and the state of the handheld device is measured, so that the user can obtain more diverse information through the sensing device to assist the smart phone or the handheld device to execute more application software. Take the current popular iPhone as an example, which has an image sensor, an acoustic sensor, an ambient light sensor, a proximity sensor, an acceleration sensor (acceieroineter), Sensing components such as an angular acceleration sensor and a magnetoresistive sensor, wherein the image sensor is used for image sensing and shooting functions, the acoustic sensor is used for sound wave sensing, and the ambient light sensor is sensed. The external luminosity or brightness of the device is measured, and the proximity sensor is used for detecting the distance between the device and the foreign object. In addition, the acceleration sensor is also called a gravity sensor (G-sensor) or a linear accelerometer. Sensing of the speed and displacement of the device, while the angular acceleration sensor is a Gyro Meter for XYZ-axis sensing to provide more accurate azimuth information than the accelerometer sensor. Finally, the data reluctance The sensor provides geomagnetic sensing 'also known as digital compass or electronic compass (Compass). As can be seen from the above, although smart phones or handheld devices provide M410314* for multiple sensing components for multi-information sensing, there is currently no integration mechanism for these sensing information, especially for adding safe and correct storage mechanisms. It is a pity that it is practical and life-oriented. Therefore, it is a problem for those skilled in the art to provide a state recorder that integrates sensing data sensed by a built-in sensing component of a handheld device. [New Content] In view of the above-mentioned shortcomings of the prior art, the present invention provides a state recorder that uses built-in sensing elements of the handheld device to preserve, analyze and integrate the sensing data of the sensing components. To record the status of the objects in which the handheld device is located. The present invention proposes a state recorder using a built-in sensing component of a handheld device, which analyzes sensing data of a sensing component built in the handheld device to generate and record status information of an object in which the handheld device is located. The device includes: a data collection module for collecting sensing data acquired by the sensing component built in the handheld device; and a computing module for analyzing the sensing data and determining the algorithm according to the state The sensing data calculates state information of the object; and the storage module is configured to store and record status information of the object. In an implementation aspect, the sensing component built in the handheld device can be a gyroscope, an electronic compass, an altimeter, a locator, a thermometer, a fish scale, an acceleration sensor, a speed sensor, an image sensor, Ambient light sensor, proximity sensor or sound sensor. In another implementation, the status recorder can be connected to the handheld device via a built-in mode, a 5 M410314 external connection, a wired network, or a wireless network. In a variant embodiment, the status recorder includes a transmission module for receiving sensing data transmitted by the handheld device and for providing information transmission and reception between the storage module and the remote device. In another variation, the status recorder includes a notification module for determining that the status information of the storage module is a preset event, automatically editing and generating a notification message, and transmitting the notification message to a preset Remote device. Compared with the prior art, the state recorder of the built-in sensing component of the handheld device can analyze and use the sensing data of the built-in sensing component of the handheld device to generate state information, in particular, The status recorder can be connected to the handheld device through a built-in, external, wired network or wireless network, and if necessary, the sensing data is transmitted to the remote device for storage, so that the remote device can obtain the instant access. The information and status of the handheld device can also be generated and transmitted to other external devices when a specific event occurs, thereby notifying the others of the possible status of the user. Therefore, the state recorder described in the present invention not only allows the handheld device to replace the single function sensor, but also makes the sensing data more widely applicable. [Embodiment] The following describes the implementation of the present invention by a specific embodiment, and those skilled in the art can easily understand other advantages and effects of the present invention by the contents disclosed in the present specification. Please refer to Figure 1, which is an architectural block diagram of the state recorder of the built-in sensing component of the handheld device. As shown, the status recorder 2 analyzes the sensing data of the sensing component 10 built in the handheld device 1 to generate and record status information of the object in which the handheld device 1 is located. The status recorder 2 contains data. The collection module 20, the calculation module 21 and the storage module 22 are provided. Wherein, the object system refers to the location where the handheld device 1 is located, and may be a human body 'vehicle or other moving object of the town, and the handheld device 1 refers to a general smart phone or a handheld electronic device with a sensing device, and The sensed sensing data is transmitted to the status recorder 2 through the transmission mode 100 and stored for subsequent data restoration and integration applications. The data collection module 20 and the calculation module 21 are permeable to software type or integrated body. Circuit mode implementation. The data collection module 20 is configured to collect sensing data captured by the sensing component 10 built into the handheld device 1. The handheld device 1 and the status recorder 2 can be connected through a plurality of transmission modes, that is, the status recorder 2 can be connected to the handheld device 1 through a built-in mode, an external connection mode, a wired network or a wireless network. And receiving the sensing data captured by the sensing component 1 . For example, the wireless network can be Worldwide Interoperability for Microwave Access (WiMAX), LTE (Long Term Evaluation), 3.5G mobile communication, infrared, wireless local area network (Wi-Fi), Bluetooth, ZigBee wireless. Sensing network, Ultra WideBand short-range wireless communication or Near Field Communication (NFC). Specifically, the transmission mode may be wired or wireless transmission. Preferably, the wireless transmission network not only shortens the data transmission time, but also prevents the handheld device 1 from being lost due to movement. The M410314 calculation module 21 is configured to analyze the sensing data and calculate state information of the object by using the sensing data according to the state determination algorithm. In detail, the computing module 21 analyzes and calculates the sensing data measured by the handheld device 1 according to a specific algorithm, thereby obtaining state information of the object. Moreover, the calculation module 21 can analyze a plurality of state information of the object in continuous time to establish dynamic behavior information of the object. In other words, the dynamic behavior of objects is constructed by integrating multiple state information. For example, when the object is in a continuous moving state, the built-in sensing component 10 of the handheld device 1 continuously detects and generates sensing data, and the computing module 21 can be used regardless of whether the object performs high and low displacement or speed, attitude, and orientation/direction change. The sensed data is integrated and converted into dynamic information (status information). The storage module 22 is used to store and record status information of the object. The state recorder 2 has a storage module 22 for storing state information calculated by the computing module 21. The present invention collects and stores the sensing data and status information through the status recorder 2 in order to provide a better protection mechanism. In addition to avoiding insufficient storage space and excessive load of the handheld device 1, the handheld device 1 can be prevented from being damaged. Resulting in loss of sensory data. In another embodiment, the data collection module 20, the calculation module 21, and the storage module 22 are not limited to be placed in the status recorder 2, that is, three modules may exist in different devices or devices. The transmission between the modules can also be carried out by means of wired or wireless transmission, so that the modules are not limited to a single device, and the device update can be simplified. As shown in Fig. 2, it is a schematic diagram of the built-in sensing element of the handheld device. The sensing component 10 built in the handheld device 1 can be a gyroscope, an electronic compass M410314. A disk, an altimeter, a locator, a thermometer, a hygrometer, an acceleration sensor, a speed sensor, an image sensor, and ambient light. A sensor, a proximity sensor or a sound sensor, or an ultraviolet sensor for detecting the intensity or accumulation of ultraviolet light. However, it should be noted that Figure 2 is only one implementation of this creation, and is not limited to the design content of the state recorder of this creation. The sensing data sensed by the sensing components 10 can be azimuth information, direction information, height information, speed information, acceleration information, temperature information, humidity information, positioning information, image information, brightness information, distance information Or sound information, etc. The sensing data indicates the status information of the object. For example, the positioning information can be provided by GPS/AGPS/AP or base station positioning. The gyroscope can detect the user's posture and obtain posture information, etc. The integration of sensing data can be applied to a wider range of fields. For example, the gyroscope is used to determine the three-dimensional movement of the handheld device 1 to generate sensing data with three-dimensional orientation information; GPS/AGPS/AP or base station positioning is used to provide the φ of the handheld device i The position is used to generate sensing data with positioning information; the acceleration sensor is used to determine the acceleration change of the handheld device 1 to generate sensing data with acceleration information. If the state of the handheld device 1 is sensed through GPS/AGPS/AP or base station positioning, only the positional movement process of the handheld device can be known, and only the acceleration sensor can only know the moving acceleration state of the handheld device through the acceleration sensor. If the above two kinds of sensing information with positioning information and acceleration information are integrated, the moving process of the handheld device on the map can be reproduced, or the sensing data of the three-axis orientation information provided by the gyroscope can be added. Reproduce the state in which the handheld device 1 is moved (up, down, or before and after 9 M410314, etc.). The author stores and integrates the sensed data to provide a status recording function to increase the usability of the handheld device. The state recorder of the present invention has a plurality of application types, such as the handheld device can be placed on an object and integrated with the sensing data of the gyroscope, the electronic compass, the altimeter, and the locator to form an obstruction record of the object movement. . In other words, the handheld device placed on the object can record the movement track of the object or generate a movement record of the object, or the image data sensed by the image sensor can be added to the sensing data of the plurality of sensors as an action. Recorder. Other functional applications can also provide a record of exercise posture for post-analysis and correction, thus providing posture corrections such as dancers or restorationists. In addition, the handheld device and the status recorder are placed in the vehicle, and the sensing data is integrated through the gyroscope, the electronic compass, the locator, the acceleration sensor, the speed sensor or the image sensor, so that the The status recorder serves as a complete driving record of the vehicle (similar to a black box). In a preferred aspect, the handheld device has an image sensor for providing image capturing, such as a photographic lens, which can be captured by the image sensor. The image information is transmitted to the storage module 22 for storage. Specifically, if only the sensor data measured by the gyroscope, the electronic compass, the GPS/AGPS/AP, or the base station positioning and the acceleration sensor are used to generate the driving record data, at most, only the dynamic data can be transmitted. Or the drawing mode performance 'But if you add image information (may include both the front and back shots of the vehicle), you can use the above three-dimensional direction information, positioning information and acceleration information, and then match the image information to simulate the image to provide a more realistic Driving record effect. For example, in the event of a car accident, the vehicle status is reconstructed by real-time shooting, vehicle M410314- position change, vehicle speed, vehicle status change (such as tumbling conditions) to accelerate the clarification of responsibility. In addition, the image information captured by the image sensor can be used to determine the usage rights or behavior status of the personnel in the vehicle in addition to the external image of the vehicle. That is, the image sensor can be used to judge the driving identity as a vehicle usage authority, or as a driving behavior judgment to avoid driving improperly, such as dozing or eating. In addition, the image sensor can also be used to capture the external image of the vehicle to know the state of the exterior of the vehicle and the surrounding objects or the environment. Please refer to Figure 3 for a diagram showing the connection between the handheld device, the status recorder and the remote unit. It is to be noted that the components and the implementation of the components shown in Fig. 3 are the same as those of the first embodiment, and therefore, the functions of these components will not be described again. In FIG. 3, the status recorder 2 further includes a transmission module 23 for receiving the sensing data transmitted by the handheld device 1 and providing the storage module 22 between the storage device and the remote device 7. Information transfer and reception, or • Receive data from remote device 7. Specifically, in order to ensure the storage of the sensing data collected by the data collection module 20 or the state information calculated by the computing module 21, the status recorder 2 can transmit the data through the transmission module 23. The network 200 is transmitted to a remote device 7, which refers to a device that is at a greater distance from the handheld device 1 and the status recorder 2, for example, if the handheld device 1 is placed on the vehicle as a driving recorder, The status recorder 2 can be placed on the vehicle at the same time or integrated into the handheld device 1 and transmitted through the wireless network 200. In addition, the remote 11 M410314 device 7 can also transmit the collated data to the status recorder 2 through the wireless network 200, and then store the data in the storage module 22 after the transmission module 23, the data. Information can be used as a basis for special events. The remote device 7 may be a base station, a server or another mobile device, and has the function of receiving data, so as to obtain the position and status of the handheld device 1 in real time. In addition, the status recorder 2 further includes a notification module 24 for determining that the status information of the storage module is automatically generated to generate a notification message when the status event is generated, and transmitted to a preset remote device. As described in the preceding paragraph, the storage module 22 can externally receive and pre-store data data as a basis for special event determination, that is, the notification module 24 compares the status information of the storage module 22 with the pre-stored data. In order to determine whether it is a preset event, if yes, the corresponding notification message is automatically edited, and then the notification message is transmitted to the set at least one remote device 7 according to the preset list. Please refer to FIG. 4, which is a schematic diagram of a state recorder of the present invention. As shown, the handheld device 1 and the status recorder 2 are placed in the vehicle 8 and transmitted through the status recorder 2. The image information captured by the image sensor built in the handheld device 1 and the sensing data sensed by other sensing components, such as three-dimensional orientation information, positioning information or acceleration information, are integrated to form a driving record of the vehicle 8. In other words, the user can place the status recorder 2 and the handheld device 1 in the vehicle 8 as a driving recorder, and through the status recorder 2, the sensing data can be saved immediately and properly. If the status recorder 2 is implemented as a software, it can be integrated into the handheld device 1. In detail, the handheld device 1 transmits the data to the status recorder 2 via the wireless transmission 300 via short-distance transmission 12 M41U314 «measurement_ or image information, and the state recorder 2 can be transmitted over the long distance through the wireless network 200. Sending the data before or after the integration to a remote device, so that the remote device can instantly know the status of the vehicle 8 through the remote device, and if the accident recovery or the vehicle 6 has been recorded, the The status recorder 2 takes out the driving status record of the vehicle 8. α % See Fig. 5, which is a schematic diagram of another embodiment of the state recorder of the present invention. In the figure, the 'status recorder is combined with the handheld device 1 by built-in method', and the handheld device 1 can be placed on the user 9, and the sensing data such as two-dimensional orientation information, positioning information and acceleration information are integrated. 'To form an activity record for the user 9 to move. / Specifically, the user 9 can put the handheld device 1 on the body, and then perform state sensing through the built-in sensing component between the intrusion, and perform data integration through the status recorder and transmit it to the remote device 7 In this way, in addition to the state recorder in the holding device 1, the user 9 can record the moving state of the user, and he can also learn the voyage of the bribe 9 through the terminal f, which has a great experiment. For example, the elderly at home can let the family know the life of the elderly through $1. If the elderly go out of their way, they will find the sensory data of the positioning information to seek out; or the elderly will not: at home: The device can instantly determine the state (4) (fall (four) process data) transmission. = Parallel application of the sample towel, if the record " is combined with the other end device 7 can receive the handheld device 1 ^ 仏 device 7' then far, the state record = test data and number_break. , the bar can also be expected - the general record of action. 13 M410314 For example, the user can use the handheld device of the built-in status recorder to record the running state, that is, through the aforementioned various sensing elements, such as the passing position (sensed by GPS), the road surface fluctuations (Sensing with a gyroscope) or speed change (sensing with an accelerometer) allows the user to get a running record afterwards. In addition, the user can also record outdoor moving processes, such as a Ferris wheel, a carousel or a roller coaster in an amusement park, regardless of its height change, speed change, position change, etc., through the status recorder. And records, so that the application of sensing data is more comprehensive. In addition, the sensing elements of the present invention are not limited in their kind, and preferably the sensing elements originally built in the handheld device are applied. Taking the iPhone as an example, there are other sensing components inside, such as an ambient light sensor or a proximity sensor, wherein the ambient light sensor can be used to sense the brightness of the external ambient light to produce brightness. Sensing data of the information, and the sensing data of the brightness information can be used to integrate with the image information captured by the image sensor to assist in adjusting the image information, thereby obtaining a better image. The proximity sensor can sense the distance between the handheld device and the external object, and generate the sensing data with the distance information, and integrate the distance information and the plurality of sensing data to form the handheld device to move. Track record. In addition to the above-mentioned common sensing components, existing sensing components such as atmospheric pressure sensors, gas sensors, etc. can be sensed in the positioning or environmental state, and can also be used in this creation. However, because the sensing components are similar and cannot be listed, the main spirit of this creation is to further integrate and use the sensing data, which not only makes the sensing data more widely used, but also allows smart phones or handheld devices. It can replace single-function electronic devices such as driving recorders, running recorders, and home care devices 14 M410314. In summary, the state recorder of the built-in sensing component of the handheld device performs state sensing through the built-in sensing component of the handheld device, and integrates the sensing data for driving, home, sports or Dynamic recording such as life, in addition, this creation provides instant transmission of sensing data to the remote device and storage, in addition to better storage effect, it can also allow others to instantly grasp the user state, so that the sensing component is provided The handheld device produces the greatest benefit. The above embodiments are merely illustrative of the principles of the present invention and its effects, and are not intended to limit the present invention. Anyone who is familiar with the art can modify and change the above-mentioned implementation without departing from the spirit and scope of this new model. Therefore, the scope of protection of this creation should be as listed in the scope of the application patent described later. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of the state recorder of the built-in sensing component of the handheld device; FIG. 2 is a schematic diagram of the built-in sensing component of the handheld device; A schematic diagram of the connection between the handheld device, the status recorder and the remote device; FIG. 4 is a schematic diagram of a specific embodiment of the state recorder of the present invention; and FIG. 5 is another embodiment of the state recorder of the present invention. Schematic diagram of the aspect. [Main component symbol description] 15 Handheld device Sensing component Status recorder Data collection module Calculation module Storage module Transmission module Notification module Remote device Vehicle User Transmission method Wireless network Wireless transmission 16

Claims (1)

M410314 VI. Scope of Application: 1. A state § recorder that analyzes the sensing data of the sensing component built into the handheld device to generate and record status information of the object in which the handheld device is located. The status recorder includes The data collection module is configured to collect sensing data captured by the sensing component built into the handheld device; and the computing module is configured to analyze the sensing data and determine the status according to the state. The sensing data calculates the state information of the object; and the storage module is used to store and record the state information of the object. 2. The state recorder of claim 1, wherein the sensing component built into the handheld device is a gyroscope, an electronic compass, an altimeter, a locator, a thermometer, a hygrometer, an acceleration sensor, and a speed. Sensor, image sensor, ambient light sensor, proximity sensor or sound sensor. For example, the status recorder described in the scope of the patent application, wherein the sensing data is azimuth information, direction information, altitude information, speed information, acceleration information, temperature information, humidity information, positioning information, and image information. , brightness information, distance information or sound information. 4. The status recorder of claim 1, wherein the calculation module analyzes a plurality of status information of the object for a continuous time to establish dynamic behavior information of the object. The status recorder as described in item 1 of the patent application scope is connected to the handheld device via a built-in method, an external connection method, a wired network or a wireless network. 6. The status recorder according to claim 5, wherein the 1 M410314 line network is Worldwide Interoperability for Microwave Access (WiMAX), LTE (L〇ng Term Evaluation), 3.5G mobile communication, Infrared, wireless local area network (Wi-Fi), Bluetooth, ZigBee wireless sensing network, Ultra WideBand short-range wireless communication or Near Field Communication (NFC). 7. The status recorder of claim 1, wherein the secondary material collection module and the computing module are implemented by software or hardware. 8. As described in the scope of the patent application. a state recorder, wherein the holding device is placed on the object, and the computing module integrates the sensing data to form a movement record of the object, and the received data of the 5 hai sensing data is 9. The status recorder of claim i, wherein the system is a vehicle and the handheld device and the status recorder are disposed in the vehicle. And receiving, by the computing module, the received sensing data to form a vehicle reading record, and the t1 data is provided by at least one of the sensing elements. 1. The status recorder according to item 2 of the patent application scope, in the bean, the image sensor and the image information obtained are used to list the persons in the vehicle: use authority or behavior state, and Extracting the external image of the vehicle 0 The status recorder described in the scope of claim 4 includes a pass-by=group' for receiving the sensing data transmitted by the handheld device, and k for the storage module and Information transmission and reception between remote devices. 12. If the status recorder described in the application section is included in the application, the M410314 module is used to determine that the status information of the storage module is a preset event, and the notification message is automatically edited. And transmitted to a pre-set remote device.