TW201016189A - Sensor, and information display method for sensor and system thereof - Google Patents

Abstract

A sensor, and an information display method for sensor and a system thereof are provided. First, an original image with an anthropomorphic object is provided. Next, plenty of sense information is received one by one. The sensor is used to detect physiological information or motion information or environmental information of a user for generating the sense information. Afterwards, the sense information is gathered statistics to obtain a sense record. Then, a status, which is after a period time, of the anthropomorphic object is forecasted according to the sense record. Next, the original image is changed to a forecasting image according to the status. Finally, the forecasting image is display. Accordingly, the user can know daily lives any time by the change of the image.

Description

201016189

9TW 29490twf.doc/n IX. Description of the Invention: [Technical Field] The present invention relates to a sensor, and more particularly to a sensor for combining image display and an information display method and system therefor. [Prior Art] In recent years, with the improvement of material life, people's awareness of health issues has gradually risen. Because most people often know their body-like bears or the state of the environment, they ignore the warnings issued by the body: Therefore, in order to allow the general public to observe their own physiological conditions, there are various types of appearances. Kind of measuring equipment. In this way, the general public can monitor the physiological changes in their bodies through various measuring devices, and can immediately detect whether their health status has turned red, and then pay attention to their own physical fitness and make appropriate adjustments. .匕 However, traditional measurement equipment can only directly present values for users to refer to, and users will also ignore the potential factors behind the values (such as obesity, over-the-counter, etc.). Therefore, how to properly apply the measuring equipment is one of the current research developments. SUMMARY OF THE INVENTION The present invention provides a sensor and an information display system and method thereof. The image with a humanoid object is used to present the sensing information of the sensor, and the health of the human body is known by the change of the humanoid object. The present invention proposes an information display method for a sensor. First, set 5 2〇l〇16j89Tw 2949〇twf_d〇c/n an original image that includes a humanoid object. Then, the plurality of sensing information is sequentially received, and the sensing information is generated by the sensor detecting one or a combination of the user's physiological information, sports information, and environmental information. Thereafter, these sensing information is counted to obtain a sensing record. Then, based on the sensing record, the state of the humanoid object after a lapse of time is predicted, and the original image is changed to the predicted image according to the above state. Finally, the predicted image is displayed.

In an embodiment of the present invention, the above-mentioned statistical sensing information is used to receive the sensing information input by the user to count the information and the sensing information. In an embodiment of the present invention, the step of predicting the state of the humanoid object after a period of time according to the sensing record may compare the sensing record with a standard range to determine the state of the humanoid object. In addition, the sensing record can be compared with the current sensing information to the state of the humanoid object. In the embodiment of the present invention, the step of statistically sensing information may be performed at a specific time or every fixed period. In the embodiment, the physiological information includes blood pressure, old people, w, body fat, body temperature, pulse, and skin type - or its group it = signal includes the number of swings, the amplitude of the swing, and the degree of motion acceleration. And UV in the environment 5: package = temperature, humidity, light intensity, mental state, face with ί combination. The above states include the body. One or a combination of the shape L and the environmental state. From the other point of view, the (four) heart-off, including the sensing 201016189 rz, j^/wx9TW 29490twf.doc/n unit, the operation unit it and the age unit. The sensing unit is configured to detect the user's physiological information, exercise information, and environmental information, or a group thereof, to sequentially generate a plurality of devices. The arithmetic unit uses the money meter to sense the signal, and obtains the sensing record, and according to the sensing record, the prediction I ^ is not used to display the state of the humanoid object in the original image after the change time, and the original image is changed. For a predictive image. The predicted image after the display.

In an embodiment of the invention, the sensor further includes a database. The database is used to store original images, predicted images, and sensed records. In an embodiment of the present invention, the computing unit further includes receiving information about the user's work information. In addition, the arithmetic unit can also compare the sensing record with the standard range, or compare the detected record with the current sensing information to determine the state of the humanoid object. In one embodiment of the invention, the sensor is, for example, one of or a combination of a sputum monitor, a temperature sensor, and a pedometer. In addition, the present invention further provides an information display system for a sensor, including a sensor and a servo end. The sensor detects the user's physiological information, exercise information, and environmental information, or a combination thereof, to sequentially generate a plurality of sensing information. And the above sensor includes a -th transmission unit for transmitting the dysfunction by the first transmission unit. In another aspect, the server includes a second transmission unit, an operation unit, and a display unit. The arithmetic unit is configured to collect the sensing information and obtain the sensing record, and according to the sensing record, predict the state of the humanoid object of the original image after the field, the second, the second and the second, and change according to the above state. The original image is an image. The display unit uses 7 201016189 ------JTW 29490twf.doc/n to display the predicted image after the change. In an embodiment of the invention, the server further includes a database. The original image, predicted image, and sensing record are stored in the database. In an embodiment of the present invention, the computing unit further includes receiving information of the work input by the user to calculate the information and the sensing information. In addition, the arithmetic unit can also compare the sensing record with the standard range, or compare the sensing record with the current sensing information to determine the state of the humanoid object. ~

As described above, the present invention utilizes an image having a humanoid object to present information remaining in the sensor. The sensing information is statistically sensed by the sensor at any time after sensing the physiological state of the user '4 or after the environmental state to predict the state of the user, and the corresponding predicted image is displayed. Accordingly, the sensed information can be reacted to the user using exaggerated and funny content. In order to make the above features and advantages of the present invention more comprehensible, the preferred embodiments of the present invention will be described in detail below. [Embodiment] - The conventional sensing is difficult to directly present the value for the user. Therefore, the user often ignores the hidden factors (such as 'obese, over-the-top messages, etc.) implied in the value. To this end, the method and system are used to present the sensing resources through the image to understand their daily life. In order to make the present invention an example of implementation: the invention under the specific embodiment of the invention can be based on 8 -9 TW 29490 twf.d 〇 c / n 201016189 (d) Figure j is in accordance with the first embodiment of the present invention! The block diagram of the secondary system of the sensor. The information display system 100 includes a test crying 11 and a servo terminal 120. J: Medium, salty, sturdy, 4 judgment 110 125 and database 127. 1, Yunnasan early Fan 123, display unit Physiological sensor 11 〇 _ user ❿ 送 sent to the server 12 〇 to carry out sports * environmental information), and pass life information. In this case, 轾A then uses images to reflect the above-mentioned routines. In the change of /b, ^, the user can grasp the degree sensor and the pedometer physiological monitor at any time, such as a mobile phone or a personal power; or; both: and the server 12 The various components. The electric yue dynasty 即 即 细 说明 说明 说明 说明 细 if if if if if if if if if if if if if if if if if if if if if if if if if if if if if if if Moreover, the sensor °u〇1 transmits the sensing information to the servo terminal by using the transmission sheet 70111. The information is, for example, blood pressure, blood sugar, money, body fat, body two skin, and the motion information is, for example, the number of swings, The amplitude or degree of the swing; in the case of the strong tree, the light intensity or the purple ember servo end 12G, 'the transmission of the self-sensor 110 by the transmission unit 121=111 _龙, 卩 provides the stomach (1) 舆 transmission wheel unit (2) For example, ^ 9 201016189 a 厶...state jtw 29490twf.doc/n

The operation unit 123 is configured to collect the sensing information, obtain the sensing record, and predict the state of the humanoid object of the original image after a period of time according to the sensing record (for example, the posture of the user, the mentality of the face). P-sorrow or environmental state), based on the above state, change the original image and predict the image. In the present embodiment, after the # computing unit 123 counts the sensing 1 message, the sensing information is stored in the database 127 for later use. In addition, the original image and prediction image are stored in the database 127. The age unit 125 is a time-reading __image. For example, in the embodiment, a plurality of images of the humanoid object may be stored in the database 127 in advance for the latter to select one of the images as the original image, and the arithmetic unit is made 123 can select one of these images as the predicted shirt image like the above state. However, in other embodiments, the user may also input his/her own image as the original image, and the operation unit 123 may change the shape of the 7-body in the original image by image processing technology. In the photo, the humanoid object produces a predicted image. & ^7 below with the above information display system 1 〇 0 to illustrate the information display party (9) i step 1 Figure 2 is the thief of the invention - the actual 阙 示 之 1 1 1 牛 牛 牛 牛 牛 牛 牛 牛 牛 牛 牛 牛Referring to FIG. 1 and FIG. 2 together, first, in step S205, the servo terminal 12 uses the arithmetic unit 123 to set an original image having an object. For example, the user can use the appropriate image in the database m as the original image. Alternatively, the user can automatically take a photo as the original image. 2〇1〇16189tw 29„c/n Next, in step S210, the servo terminal 120 passes the transmission unit d

Receive multiple sensing information in sequence. The sensing information is generated by the sensor 1U measuring the user's physiological information, motion information, and environmental information. Eight or later, in step S215, the server 120 further counts the sensing information through the operation unit 123 to obtain a sensing record. The arithmetic unit can perform statistics on the received sensing information at a specific time or every fixed period. For example, with the sensor 110 as a pedometer, the operation unit 123 can count the swing detected by the pedometer every 5 minutes: the amplitude of the swing and the acceleration of the movement, so as to know the user. The amount of exercise. In addition, before the information is sensed, the user can input the information of the work to the server 120, so that the operation unit 123 can perform fine statistics on the work information and the sense information. For example, you can enter the daily drinking content and weight information of the person. Then, the arithmetic unit 123 integrates the information and the sensing information into a sensing record. After the turtle (3) is followed, in step S220, the arithmetic unit 123 predicts the state of the humanoid object after the elapsed period of time based on the sensing record. For example, in advance, the database 127 establishes a correspondence between the sensing information and various states: by way of a transport order; t 123 compares the sensing record with the standard range to query the database 127 to determine the state of the humanoid object. In addition, the arithmetic unit 121 can also be king. The sensation record of 卩5丨 is compared with the currently received sensing information to determine the state of the humanoid object. For example, in the case of the sensor H0 as the body fat, the arithmetic unit 123 compares the body fat produced by the sensor 11G with the corresponding standard range by 11 2〇1〇16189tw 29490twf.doc/n. When the operation unit 123 determines that the body fat detected by the sensor U0 is greater than the standard range, the operation unit 123 predicts that the state of the humanoid object is a bloated posture. Conversely, when the arithmetic unit 123 judges that the detected body fat is smaller than the standard range, the state of the humanoid object is predicted to be the slashed posture. In addition, in terms of sensing information matching information, it is assumed that the sensor 11 is a pedometer, and it is assumed that the user automatically turns his or her diet and the amount to the server 120. The arithmetic unit 123 performs parameter statistics on the motion information of the sensor 11A to know the normal amount of exercise of the user. The computing unit 123 then calculates the hot star ingested by the user based on the information (ie, the diet content and the serving size). According to this, the differentiating unit 123 can predict the change of the posture (e.g., the state of becoming fat or thinning) if the user continues to maintain such a habit according to the amount of exercise and the amount of heat. Of course, the computing unit 12^ can also use the sensing of the poor to predict the state of the user. This is for illustrative purposes only and is not limiting. Next, in step S225, the arithmetic unit 123 changes the silk start image to the predicted scene image in accordance with the above state. For example, in the present embodiment, the ® calculation sheet 70 123 extracts the image corresponding to the above-mentioned '4' from the database 127 as the image according to the state. * In other embodiments, the operation unit it 123 can perform image processing on the humanoid object of the original image in accordance with the state of manufacture, so that the humanoid object changes according to the predicted state. Finally, in step S230, the arithmetic unit 123 displays the predicted image in the display unit 125. According to this, the user can know through the predicted image that if the life is not changed, the user will continue after a period of time 12 201016189

9TW 29490twf.doc/n itself will be as shown in the predicted image. It is worth mentioning that the sensor 110 can be combined by a variety of different sensing units. For example, if the sensor 110 is combined with the pedometer and the physiological monitor, the operation unit 123 determines whether the user is a regular swing according to the number of swings, the swing amplitude, and the moving acceleration measured by the pedometer. Moreover, the operation unit 123 can determine whether the heartbeat of the user is stable or jumps rapidly according to the pulse detected by the physiological monitor.

The pseudo δ free transport unit 123 determines that the motion state of the user is a regular swing, and has a stable pulse, and the operation unit 123 can change the humanoid object in the predicted image to correct the rib, and the more visible image method The humanoid object is in a jogging state. On the other hand, if the operation sheet ^123 judges that the swing amplitude (or the number of swings) + is within the corresponding standard range, the effect of the humanoid object is increased in the _image towel. No f Calculate ^ 123 can predict whether the state of the humanoid object is boring ‘state】 according to the swing amplitude (or the number of swings) ===. In order to make the pre-(four) image of the human figure lighter, it is judged to be in a solitary state; the ΐΐΐ is based on the sensing information of the Detective _, and the user is classified as a long-term sports type to pass through the image towel The state of the humanoid object to the class of the scientific rate. 1 Μ Μ 、 、 病 病 病 — 此 此 此 此 此 此 此 此 此 此 此 此 此 此 此 此 此 此 此 — — — — — — — — — — — — — — — — — — — — — = = — When the electronic clock Μ 'Wei transmission unit 201016189 29490twf.doc/n

1 / wi9T\V 120, so that the arithmetic unit (10) predicts the state of the humanoid object. If the photosensitive unit system is _, and exceeds the preset value, the electronic clock will start counting to exceed the predetermined time _ (for example, 3 hours), and the transmission unit ill is used to notify the servo end. 12G causes the arithmetic unit 123 to change the image displayed by the target to a predicted image with dark circles.

In this embodiment, the sensor 110 is connected to the servo terminal 12 to measure the sensing information and display the predicted image through the servo terminal 12〇. However, in other embodiments, the arithmetic unit and the display unit may be disposed directly in the sensor. The following is another example. Cover rrr embodiment__ Figure 3 is a block diagram of a sensor in accordance with a second embodiment of the present invention. Referring to FIG. 3, the sensor 300 includes a sensing unit 311, an arithmetic unit 313, a display unit 315, and a database 31γ. The functions of the sensing unit 311, the differentiating unit 313, the display unit 315, and the database 317 of the present embodiment are the same as or similar to the sensor 11, the arithmetic unit 123, the display unit 125, and the database 127 of the first embodiment, respectively. Therefore, it will not be detailed here. This embodiment is different from the first embodiment in that the present embodiment sets the operation unit 313, the display unit 315, and the database 317 in the sensor 300. Accordingly, the user can take the sensor 300 to the body for observation at any time. For example, Figure 4 is a schematic illustration of a user wearing a sensor in accordance with a second embodiment of the present invention. Referring to FIG. 4, in the embodiment, the user 420 wears the sensor 410 on the wrist while moving, 2〇1〇16189tw 2949〇twfd〇c/n, while being able to move, Instantly view the predicted image 43〇 (for example, the body becomes slim). Accordingly, the user 420 will be more motivated to continue to move after viewing the predicted image 43〇. It is worth mentioning that in practical applications, the above embodiment can be applied to a virtual development game, and when the user has a good living habit, the humanoid object will grow into a good state. Conversely, when users live habits

When the rate is irregular, the humanoid object will grow into a negative state. According to this, it can be used as a warning. According to the wire, in the above embodiment, the state of the humanoid-predicted image is the information of the shouting, and accordingly, according to the difference of the user, the second object is the same as the humanoid object. By predicting the humanoid object of the image towel, the physiological state or environmental factor that is neglected by the flat can be magnified. In this way, the user can detect the physical state of the child without σ, and then actively change the body to develop a good habit. Naturally, the preferred embodiment of the present invention is as disclosed above, but it is not intended to depart from the technical field of the present invention, and it is not necessary to make a few changes and refinements. Therefore, the 俾 spectrum of the present invention, "two scare heart Wen Xing retouching, as defined by the scope of the patent application attached to the attached figure l, a simple description of the diagram] The signal of the sensor shown in the first embodiment - 201016189

i) TW 29490twf.doc/n FIG. 2 is a flow chart showing the information display method of the sensor according to the first embodiment of the present invention. Figure 3 is a block diagram of a sensor in accordance with a second embodiment of the present invention. 4 is a schematic diagram of a user wearing a sensor according to a second embodiment of the present invention. [Main component symbol description] ® 100: information display system 110, 300, 410: sensor 111, 121: transmission unit 120: servo terminal 123, 313: arithmetic unit 125, 315: display unit 127, 317: database 311 : sensing unit 430 430 : predicted image S205 to S230 : step 16 of the information display method of the sensor of the first embodiment of the present invention

Claims (1)

201016189 ------9TW 29490twf.d〇c/n X. Patent application scope: I. A method for displaying information of a sensor, comprising: setting an original image, the original image including a humanoid object; Sensing information generated by a sensor detecting one of a user's physiological information, a motion information, and an environmental information, or a combination thereof; counting the sensing information Obtaining a sensing record; and predicting, according to the sensing record, a state of the humanoid object after a lapse of time; according to the state, changing the original image to a predicted image; and displaying the predicted image. The information display method of the sensor of claim 1, wherein before the step of obtaining the sensing information to obtain the sensing record, the method further comprises: receiving a user input Work information to collect the information and ifl and the sensing information. The information display method of the sensor according to claim 1, wherein the step of predicting the state of the humanoid object after a lapse of time according to the sensing record further comprises: sensing the state The record is compared with a standard range to determine the state of the humanoid object. 4. The information display method of the sensor according to claim 1, wherein the step of predicting the state of the humanoid object after a lapse of time according to the sensing record further comprises: 17 201016189 /lW 29490twf .doc/n Aligns the sensing record with a current sensing slogan included in the sensing stimuli to determine the state of the humanoid object. 5. The information display method of the sensor according to claim 1, wherein the step of counting the sensing information further comprises: counting the sensing information at a specific time or every fixed period. . 6. The information display method of the sensor according to claim 1, wherein the physiological information includes one or a combination of blood pressure, blood sugar, blood oxygen, body fat, body temperature, pulse, and skin type, The motion information includes one or a combination of the number of swings, the amplitude of the swing, and the motion acceleration. The environmental information includes one or a combination of temperature, humidity, light intensity, and ultraviolet green index. 7. The information display method of the sensor of claim 1, wherein the state comprises one or a combination of a body state, a mental state, a face state, and a ring state. Brother 8. A sensor, comprising: a sensing unit that detects a physiological information of a user, a sports loyalty and an environmental information, or a dissident, or a recording sequence that generates a plurality of sensing Information, an operation unit, collecting the sensing information, obtaining a sensing record, and predicting, according to the sensing record, a state of a humanoid object in an original scene after a period of time, according to the The state changes the original $ image to a predicted image; and ~ a display unit displays the predicted image. 9. The sensor of claim 8, further comprising: 18 29490 twf.doc/n 201016189 a database storing the original image, the predicted image, and the sensing record. 10. The sensor of claim 8, wherein the computing unit further comprises receiving a message information input by a user to count the message and the sensing information. 11. The sensor of claim 8, wherein the computing unit further comprises comparing the sensing record to a standard range or the sensing is recorded with the sensing information. A current sensing information is compared to determine the state of the humanoid object. 12. The sensor of claim 8, wherein the sensor comprises one or a combination of a physiological monitor, a temperature sensor, and a pedometer. 13. The sensor of claim 8, wherein the physiological information includes blood pressure, blood sugar, blood oxygen, body fat, body temperature, pulse, and skin type, or a combination thereof, the exercise information includes Among the counts of the count, the amplitude of the swing, and the acceleration of the movement, or a combination thereof, the environmental information includes one or a combination of temperature, humidity, light intensity, and ultraviolet index. The sensor of claim 8, wherein the state of the mental state, the facial state, and the environmental state - or a combination thereof. The information display system of the sensor, including the sensor speculation - the user's - physiological # information, the sports information clothing m - or a combination thereof - to generate multiple senses in sequence 19 15. 201016189 η'Ψ 29490 twf.doc/n, the sensor includes a first transmission unit, and the first transmission unit is used to transmit the sensing information; and a server includes: a second transmission unit, the first transmission The unit receives the sensing information; an operation unit collects the sensing information to obtain a sensing record, and according to the sensing record, predicts a state of a humanoid object of an original image after a period of time, According to the state, the original image is changed to be a predicted image; and a display unit displays the predicted image. 16. The information display system of the sensor of claim 15, wherein the server further comprises: a database for storing the original image, the predicted image, and the sensing record. 17. The information display system of the sensor of claim 15, wherein the computing unit further comprises receiving a piece of information input by a user to count the information and the sensing information. 18. The information display system of the sensor of claim 15, wherein the computing unit further comprises comparing the sensing record with a standard range, or the sensing record and the sensing information. A current sensing information is included to determine the state of the humanoid object. 19. The information display system of the sensor of claim 15, wherein the sensor comprises one or a combination of a physiological monitor, a temperature sensor, and a pedometer. 20. The information display system of the sensor according to claim 15, wherein the physiological information includes blood pressure, blood sugar, blood oxygen, body wax, body temperature, pulse and skin type. In one or a combination thereof, the motion information includes one or a combination of the number of swings, the amplitude of the swing, and the movement acceleration, and the environmental information includes one or a combination of temperature, humidity, light intensity, and ultraviolet index. 21. Information display of the sensor as described in claim 15 The state includes one of or a combination of a body state, a mental state, a face state, and an environmental state. 22—For example, the system of the scope of the application of the patented invention, wherein the servo worm is the information of the sensor described in item 15, displays a mobile phone or a personal computer. twenty one