CN103200285A - Mobile cell phone with display screen partially controlled by inclination sensor - Google Patents
Mobile cell phone with display screen partially controlled by inclination sensor Download PDFInfo
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- CN103200285A CN103200285A CN2013100194411A CN201310019441A CN103200285A CN 103200285 A CN103200285 A CN 103200285A CN 2013100194411 A CN2013100194411 A CN 2013100194411A CN 201310019441 A CN201310019441 A CN 201310019441A CN 103200285 A CN103200285 A CN 103200285A
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Abstract
The invention relates to a mobile cell phone with a display screen partially controlled by an inclination sensor. The inclination sensor is designed to be used for detecting an inclination degree of the mobile cell phone in a first plane. The mobile cell phone is provided with an inclinometer model, under the inclinometer model, a processor receives instructions of the inclination degree detected in the first plane from the inclination sensor and controls the display screen to display mark components according to the positions determined by the received instructions. The mobile cell phone comprises a first inclination sensor device and a second inclination sensor device, wherein the first inclination sensor device is used for detecting the inclination degree of the mobile cell phone in a first direction, and the second inclination sensor device is used for detecting the inclination degree of the mobile cell phone in a second direction. The mobile cell phone is provided with the inclinometer model, under the inclinometer model, a rough direction of the mobile cell phone is determined through the input from the first inclination sensor device and the second inclination sensor device, and the display screen is automatically controlled to display the mark components at the positions representing inclination degrees with determined directions.
Description
The application is that the application number of on September 17th, 2003 application is 03827076.5, denomination of invention is divided an application for the patent application of " mobile cellular telephone with display screen of partly being controlled by inclination sensor ".
Technical field
Embodiments of the present invention relate to cellular mobile telephone.
Background technology
Mobile cellular telephone is exclusively used in cellular mobile communication at first.Yet along with the development of Mobile Phone Market, people are desirably in and add function in the mobile phone, thereby can provide more purposes to the user.Current mobile phone has address book function, alarm clock function, game function, digital camera functionality etc.
The user expects further to improve the practicality of mobile phone.
The user expects that especially mobile phone can use as a practical tool.
Summary of the invention
According to an embodiment of the invention, a kind of mobile cellular telephone is provided, comprising: display screen; Processor, this processor is used for the operation that control comprises the mobile cellular telephone of display screen; Inclination sensor, this transducer is arranged for detecting the gradient of described mobile phone in first plane, wherein, mobile cellular telephone has the inclinometer pattern, processor is received in the indication of detected gradient in first plane from described inclination sensor under this pattern, and controls display screen show label parts (item) on the basis determined position of indication that receives.
According to another implementation of the invention, its mobile cellular telephone that provides comprises: display screen; Processor, this processor is used for the operation that control comprises the mobile cellular telephone of display screen; The first inclination sensor device, this device is for detection of the gradient when mobile phone is in first direction; And the second inclination sensor device, this device is for detection of the gradient when mobile phone is in second direction, wherein mobile cellular telephone has the inclinometer pattern, processor is automatically controlled display screen has been determined the gradient of direction in expression position display sign parts then by determine the roughly direction of mobile phone from the input of the first and second inclination sensor devices under this pattern.
Description of drawings
For a better understanding of the present invention, will only provide example with reference to accompanying drawing, wherein:
Fig. 1 shows mobile cellular telephone;
Fig. 2 A and Fig. 2 B are respectively a kind of plane graph and cross-sectional side view of inclination sensor;
Fig. 3 A and Fig. 3 B are respectively plane graph and the cross-sectional side view of another kind of inclination sensor;
Fig. 4 A, 4B and 4C show the different directions for mobile phone, and how mobile phone shows the measured value of the gradient on the plane of supporting self; And
Fig. 5 shows a kind of optional mode of display plane tilt quantity and gradient on display screen.
Embodiment
Fig. 1 shows mobile cellular telephone 10, and it comprises: processor 12; Display screen 14, this display screen is by processor 12 controls; Inclination sensor (or sensor groups) 16 is used for providing input to processor 12; Memory 18; User input apparatus 20 and radio cellular transceiver 22.
Processor and display screen 14, inclination sensor (group) 16, memory 18, user input apparatus 20 and radio cellular transceiver 22 link to each other.Processor 12 is controlled the operation of mobile cellular telephone 10 according to the program command that is stored in memory 18.Especially, processor makes it possible to carry out radio communication through radio cellular transceiver 22, makes the user control cell phones through user input apparatus 20, and the content of control display screen 14.
Show a kind of plane graph and cross-sectional side view of inclination sensor 16 among Fig. 2 A and Fig. 2 B respectively.This inclination sensor 16 uses force feedback accelerometer.Mass (mass) 50 is suspended between two pairs of electromagnet 52, and every pair of electromagnet is along different normal axis x or y alignment herein.These x, y axle are orthogonal to the main shaft z of inclination sensor, and inclination sensor 16 detection of vertical are in the gradient of the primary flat of main shaft, that is, it detects the swing about x axle and y axle.Also can be described as be at gradient in the yz plane about the swing of x axle, and also can be described as gradient in the xz plane about the gradient of y axle.Electromagnet 52 obtains energy mass is re-positioned at the center because the inclination of inclination sensor 16, mass produce mobile.For each electromagnet concerning, the required electric current that is used for reorientating mass changes into measuring the primary flat gradient.
Plane graph and the cross-sectional side view of another kind of inclination sensor 16 are shown respectively among Fig. 3 A and Fig. 3 B.Inclination sensor 16 uses part that the airtight container 40 of dielectric solution 42 is housed.The inside of chamber wall forms public electrode 44.The first couple of electrode 46a and 46c are along first planar registration, and part is immersed near in the solution of container 40 opposite sides.Each electrode 46a, 46c forms variable capacitor by public electrode 44.Because container tilts in first plane, capacitance changes thereupon, and the asymmetrical variation of dielectric horizontal plane at electrode of opposite place.Therefore the differential capacitance value representation of electrode pair gradient and the tilt quantity in first plane.The second couple of electrode 46b and 46d are along second planar registration, and part is immersed near in the solution of container 40 opposite sides.Each electrode 46b, 46d forms variable capacitor by public electrode 44.Because container tilts in second plane, capacitance changes thereupon, therefore the differential capacitance value representation of second electrode pair gradient and the tilt quantity in second plane.Can comprise that measurement mechanism is used for measuring the differential capacitance value of first pair of electrode, to be illustrated in gradient in first plane and first signal of tilt quantity then and offer mobile phone processor 12, also measure the differential capacitance value of second pair of electrode simultaneously, will be illustrated in gradient in second plane and the secondary signal of tilt quantity then and offer mobile phone processor 12.Inclination sensor 16 has main shaft z, and this main shaft is positioned at first and second planes and simultaneously perpendicular to the primary flat of transducer.Inclination sensor 16 detects the gradient of primary flat.Also can use the inclination sensor 16 of other type.
Usually mobile cellular telephone has menu structure, and this menu structure is presented on the display screen 14, and the user can use user input apparatus to browse it.An option in the menu structure is " inclinometer ".If this option is selected, mobile phone enters the inclinometer pattern.Under this pattern, processor will be by following description operation.
In first execution mode, processor 12 is at two dummy level instrument of display screen 14 simulations.As Fig. 4 A, shown in 4B and the 4C, when processor was in the inclinometer pattern, control display screen 14 showed first horizontal bar 30 and second vertical column 32 that separates.Term " level " refers to their relative direction rather than absolute directions in display screen with " vertical ".
In this case, swing and the rotation amount about first represented in the position of the sign parts of representing with bubble 34 that are positioned at first horizontal bar.Usually when being zero about first swing, sign parts 34 are positioned at the middle position 35 of horizontal bar 30, and when mobile phone rotated about first, sign parts 34 shifted out or shift to middle position 35 in real time along the opposite direction of mobile phone 10 direction of rotation.
In this case, represent swing and rotation amount about second axle with the hang down position of the sign parts 36 put hurdle 32 of being positioned at of representing of bubble.Usually when being zero about second swing, sign parts 36 are positioned at the middle position 37 of vertical column 32, and when mobile phone rotates about second, indicate that then parts 36 shift out or shift to middle position 37 in real time along the opposite direction of mobile phone 10 direction of rotation.
Therefore indicate that the offset direction of member distance middle position and side-play amount represent that mobile phone is to return zero swing and direction and the number of degrees that should rotate.
Fig. 4 A, 4B and 4C illustrate the different directions for mobile phone 10 respectively, how to use display screen of mobile telephone 12 to measure or proofread and correct the gradient on the plane 60 of supporting mobile phone.The direction of gravity is represented with g, and the main shaft of the inclination sensor of work is represented with z.
In Fig. 4 A, mobile phone 10 is placed vertically and its bottom rests on the surface 60.For this direction, the main shaft z of the inclination sensor of work is parallel to the vertical column 32 of demonstration, just is parallel to g at this horizontal level main shaft z like this.Horizontal bar 30 expressions that show are about the swing of x axle, and vertical column 32 expressions that show are about the swing of y axle, here
z=
xx
yZ is the vector that the vector product by x and y obtains, and the x axle is perpendicular to the plane of display screen 14, and the y axle is perpendicular to x axle and main shaft z.The inclination sensor 16 of work detects the gradient on surface 60.By the continuous gradient that changes surface 60, all be positioned at their central marks 35,37 places separately up to sign parts 34,36, surface 60 just is in level.
In Fig. 4 B, mobile phone 10 is sidelong and its side rests on the surface 60.For this direction, the main shaft z of the inclination sensor 16 of work is parallel to the horizontal bar 30 of demonstration, just is parallel to g at this horizontal level main shaft z like this.Horizontal bar 30 expressions that show are about the swing of y axle, and vertical column 32 expressions that show are about the swing of x axle, here
z=
xx
yThe y axle is parallel to vertical column 32, and the x axle is perpendicular to y axle and main shaft z.The inclination sensor 16 of work detects the gradient on surface 60.By changing surface 60 gradient, all be positioned at their central marks 35,37 places separately up to sign parts 34,36, surface 60 just is in level.
In Fig. 4 C, mobile phone 10 keeps flat and its back rests on the surface 60.For this direction, the main shaft z of the inclination sensor 16 of work is orthogonal to the horizontal bar 30 of demonstration and the vertical column 32 that shows, just is parallel to g at this horizontal level main shaft z like this.The swing that the horizontal bar 30 that shows is represented about the x axle that is parallel to vertical column 32, and the swing that the vertical column 32 that shows is represented about the y axle that is parallel to horizontal bar 30, here
z=
xx
yThe inclination sensor of work detects the gradient on surface 60.By changing surface 60 gradient, all be positioned at their central marks 35,37 places separately up to sign parts 34,36, surface 60 just is in level.
Fig. 4 A, 4B and 4C illustrate three application of the present invention.Each uses the gradient of using mobile phone 10 to come measurement plane in different directions, and each needs the inclination sensor 16 of obviously alignment to finish this work.Different mobile phones 10 can comprise different required inclination sensors 16.A mobile phone 10 can only comprise an independent inclination sensor 16, therefore only can use Fig. 4 A, ' placing vertically ' that the direction by the main shaft z of mobile phone 10 medium dip transducers that illustrates respectively among 4B and the 4C is determined, a kind of in ' being sidelong ' and ' keeping flat ' direction.
Another mobile phone 10 has three inclination sensors, can ' be placed vertically ', ' being sidelong ', or ' keeping flat ' measures clinoplain.After from menu, selecting ' inclinometer ' option, can allow the user select the mobile phone placement direction in the plane of gradient to be measured.Therefore user's option has ' placing vertically ', ' being sidelong ' and ' keeping flat '.When gradient is zero, the selection of option is made that the inclination sensor 16 that has perpendicular to the main shaft on plane is measured.Alternatively, processor 12 can select one in three transducers to come work automatically.Processor 12 selects to provide the inclination sensor 16 of output in the work preset range.
Fig. 5 is illustrated in the optional mode of display plane gradient and tilt quantity on the display screen 14.In aforesaid example, processor calculate can have on the occasion of or the value i of negative value and determine the deviant on sign parts 34 central marks 35 right sides in the horizontal bar 30.Processor also calculate have on the occasion of or the value j of negative value and determine that sign parts 36 exceed the deviant of central marks 37 in the vertical column 32.In this example, processor is calculated value i and j still, but (i j) locates to locate independent sign parts 60 in the position of display screen.Processor also locates to show central authorities' ' target ' 62 in (0,0).The vector shift scale of sign parts 60 distance objectives 62 shows gradient and the tilt quantity on the plane 60 of supporting mobile phone 10.When plane 60 level gradually, the sign parts will move to target in real time.When its arrives target, the plane will be on two-dimensional directional level.
Although according to different examples embodiments of the present invention are described in the paragraph in front, will be appreciated that to the modification carried out to example do not break away from the scope of protection of present invention.For example, although top vertical column 32 and horizontal bar 30 all are described, in other enforcement, vertical column or horizontal bar can only be arranged.In other enforcement, horizontal bar and vertical column can be overlapping in addition, for example form "+" shape.
Although in above-mentioned specification, try hard to be absorbed in those features that description is considered to particular importance of the present invention; but be to be understood that the applicant require to aforementioned expression and/or in the accompanying drawings shown in the characteristic aspect of any patentability or the protection of combination of features aspect, whether it has not been carried out lay special stress on and not will consider.
Claims (27)
1. mobile cellular telephone, it comprises:
Processor, it is arranged to the display screen of the described mobile cellular telephone of control and the operation of described mobile cellular telephone; And
Inclination sensor, it is arranged to and detects the gradient of described mobile phone in first plane, wherein, described mobile cellular telephone has the inclinometer pattern, under described inclinometer pattern, described processor is arranged to the indication that is received in detected gradient in first plane from described inclination sensor, and control described display screen to user's display field of described mobile cellular telephone and the locational sign parts in the basis determined described hurdle of indication that receives, the position of described sign parts in described hurdle represents gradient and the tilt quantity of described mobile cellular telephone in first plane, and wherein, described display screen has the first area and described hurdle has second area, and described second area is less than described first area;
Wherein, described mobile cellular telephone is configured can be used as utility.
2. mobile cellular telephone as claimed in claim 1, wherein, described processor is received in the real-time indication of detected gradient in first plane from described inclination sensor, and controls the described display screen mobile determined position of indication that indicates that parts have received through basis in real time.
3. mobile cellular telephone as claimed in claim 1, wherein said display screen has first, and described processor control described display screen determine according to the indication that receives along show label parts on described first position.
4. mobile cellular telephone as claimed in claim 1, wherein said inclination sensor be arranged to second plane of described first planar quadrature in additionally detect the gradient of described mobile phone, wherein, under the inclinometer pattern, described processor receives the indication of detected gradient in described second plane from described inclination sensor, and controls described display screen and show other sign parts in the position of determining according to the indication that receives.
5. mobile cellular telephone as claimed in claim 4, wherein said processor receives the real-time indication of detected gradient in described first plane and described second plane from described inclination sensor, and control described display screen in real time mobile described sign parts and described other sign parts through according to the determined position of indication that receives.
6. mobile cellular telephone as claimed in claim 4, wherein said display screen have first and with second of described first quadrature, described processor is controlled described display screen and is shown described sign parts in the determined position of the indication of detected gradient in first plane that receives along first basis, and shows described other sign parts in the determined position of the indication of detected gradient in second plane that receives along second basis.
7. mobile cellular telephone as claimed in claim 1, wherein said inclination sensor is arranged to the gradient of the described mobile phone of detection in being orthogonal to second plane on described first plane extraly, and the described processor that is in the inclinometer pattern receives first indication and second indication of detected gradient in described second plane of detected gradient in described first plane from described inclination sensor, and controls described display screen according to first indication that receives and the described sign parts of the determined position demonstration of second indication.
8. mobile cellular telephone as claimed in claim 7, wherein said display screen has first and be orthogonal to first second, described processor is controlled described display screen at coordinate position (i, j) locate to show described sign parts, wherein said first coordinate is determined by the received indication of detected gradient in described first plane, and second coordinate is determined by the received indication of detected gradient in described second plane.
9. mobile cellular telephone as claimed in claim 7, wherein said processor receives the real-time indication of detected gradient in described first plane and described second plane from described inclination sensor, and control described display screen in real time mobile described sign parts through according to the determined position of indication that receives.
10. mobile cellular telephone as claimed in claim 1, wherein said inclination sensor comprise along described first planar registration and part and are immersed in first pair of electrode in the liquid, in order to first signal that is illustrated in the gradient in described first plane to be provided; And be immersed in second pair of electrode in the liquid along second planar registration that is orthogonal to described first plane and part, in order to the secondary signal that is illustrated in the gradient in described second plane to be provided.
11. a mobile cellular telephone, it comprises:
Processor, it is arranged to the display screen of the described mobile cellular telephone of control and the operation of described mobile cellular telephone;
First inclination sensor, it is arranged to the gradient of detection described mobile phone when being in first direction; And
Second inclination sensor, it is arranged to the gradient of detection described mobile phone when being in second direction, wherein said mobile cellular telephone has the inclinometer pattern, described processor is arranged to by determine the roughly direction of described mobile phone from the input of described first and second inclination sensors under described pattern, and automatically control described display screen and show first hurdle to the user of described mobile cellular telephone, the first sign parts, second hurdle and the second sign parts, wherein first position of sign parts in first hurdle represents the gradient of first direction, second position of sign parts in second hurdle represents the gradient of second direction, and wherein, described display screen has the first area and described first hurdle has second area, and described second area is less than described first area;
Wherein, described mobile cellular telephone is configured can be used as utility.
Measure gradient 12. use mobile phone as claimed in claim 1.
13. use mobile phone as claimed in claim 1 to come the correct tilt degree.
14. a method, it comprises:
Detect the gradient of mobile phone in first plane; And
The control display screen is to user's display field of described mobile phone and according to the locational sign parts that detect in the determined described hurdle of gradient, the position of described sign parts in described hurdle represents gradient and the tilt quantity of described mobile phone in first plane, wherein, described display screen has the first area and described hurdle has second area, and described second area is less than described first area;
Wherein, described mobile cellular telephone is configured can be used as utility.
15. method as claimed in claim 14, it comprises: be received in the real-time indication of detected gradient in first plane, and control described display screen and move sign parts process in real time according to the determined position of detected gradient.
16. method as claimed in claim 14, wherein said display screen has first, and described method comprises: control described display screen determined along show label parts on described first position according to detected gradient.
17. method as claimed in claim 14, it is included in the gradient that detects described mobile phone in second plane with described first planar quadrature, wherein, under the inclinometer pattern, described method comprises: be received in the indication of detected gradient in described second plane, and control the other sign parts of the determined position demonstration of indication that described display screen receives in basis.
18. method as claimed in claim 17, it comprises: be received in the real-time indication of detected gradient in described first plane and described second plane, and control described display screen in real time mobile described sign parts and described other sign parts through according to the determined position of indication that receives.
19. method as claimed in claim 17, wherein said display screen have first and with second of described first quadrature, described method comprises: control described display screen and show described sign parts in the determined position of the indication of detected gradient in first plane that receives along first basis, and show described other sign parts in the determined position of the indication of detected gradient in second plane that receives along second basis.
20. method as claimed in claim 14, it comprises: the gradient that detects the described mobile phone in being orthogonal to second plane on described first plane, and in the time of in being in the inclinometer pattern, described method comprises: be received in first indication of detected gradient in described first plane and second indication of detected gradient in described second plane, and control described display screen according to first indication that receives and the described sign parts of the determined position demonstration of second indication.
21. method as claimed in claim 20, wherein said display screen has first and be orthogonal to first second, and described method comprises: control described display screen at coordinate position (i, j) locate to show described sign parts, wherein said first coordinate is determined by the received indication of detected gradient in described first plane, and second coordinate is determined by the received indication of detected gradient in described second plane.
22. method as claimed in claim 20, it comprises: be received in the real-time indication of detected gradient in described first plane and described second plane, and control described display screen and move the determined position of indication that described sign parts receive through basis in real time.
23. mobile cellular telephone as claimed in claim 1, wherein when described mobile cellular telephone was in the inclinometer pattern, described mobile cellular telephone was modeled to level meter.
24. a mobile cellular telephone, it comprises:
Processor, it is arranged to the display screen of the described mobile cellular telephone of control and the operation of described mobile cellular telephone; And
Inclination sensor, it is arranged to and detects the gradient of described mobile phone in first plane, wherein, described mobile cellular telephone has the inclinometer pattern, under described inclinometer pattern, described processor is arranged to the indication that is received in detected gradient in first plane from described inclination sensor, and control described display screen to user's display field of described mobile phone and the locational sign parts in the basis determined described hurdle of indication that receives, wherein, the position of described sign parts in described hurdle provides indication to the gradient of described mobile cellular telephone in first plane to described user, and wherein, when the gradient of described mobile cellular telephone in first plane is essentially zero, described processor is arranged to described sign parts is placed middle position in the described hurdle, and wherein, described display screen has the first area and described hurdle has second area, described second area is less than described first area, wherein, described mobile cellular telephone is configured can be used as utility.
25. the memory with the computer executable instructions coding is used for implementing to detect and showing that the operation of gradient comprises:
Detect the gradient of mobile phone; And
The control display screen is to user's display field of described mobile phone and according to the locational sign parts that detect in the determined described hurdle of gradient, the position of described sign parts in described hurdle represents gradient and the tilt quantity of described mobile phone, wherein, described display screen has the first area and described hurdle has second area, described second area is less than described first area, wherein, described mobile cellular telephone is configured can be used as utility.
26. mobile cellular telephone as claimed in claim 1, wherein, the mobile indication described mobile peak cellular telephone of described sign parts in described hurdle is about the swing of x axle, and described x axle is vertical with the plane of described display.
27. mobile cellular telephone as claimed in claim 1, wherein, described processor is arranged to the described display screen of control and shows the menu structure that comprises the inclinometer option, and described inclinometer option can select to make described mobile cellular telephone to enter described inclinometer pattern by the user.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2013100194411A CN103200285A (en) | 2003-09-17 | 2003-09-17 | Mobile cell phone with display screen partially controlled by inclination sensor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2013100194411A CN103200285A (en) | 2003-09-17 | 2003-09-17 | Mobile cell phone with display screen partially controlled by inclination sensor |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNA038270765A Division CN1839640A (en) | 2003-09-17 | 2003-09-17 | A mobile cellular telephone with a display that is controlled partly by an incline sensor |
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| CN103200285A true CN103200285A (en) | 2013-07-10 |
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| CN2013100194411A Pending CN103200285A (en) | 2003-09-17 | 2003-09-17 | Mobile cell phone with display screen partially controlled by inclination sensor |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105723690A (en) * | 2013-11-15 | 2016-06-29 | 夏普株式会社 | Electronic apparatus |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2001043473A1 (en) * | 1999-12-08 | 2001-06-14 | Telbird Ltd. | Hand held data processor unit |
| CN1422380A (en) * | 2000-02-03 | 2003-06-04 | 独立技术有限责任公司 | Attitude estimation in tiltable body using modified quaternion data representation |
-
2003
- 2003-09-17 CN CN2013100194411A patent/CN103200285A/en active Pending
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2001043473A1 (en) * | 1999-12-08 | 2001-06-14 | Telbird Ltd. | Hand held data processor unit |
| CN1422380A (en) * | 2000-02-03 | 2003-06-04 | 独立技术有限责任公司 | Attitude estimation in tiltable body using modified quaternion data representation |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105723690A (en) * | 2013-11-15 | 2016-06-29 | 夏普株式会社 | Electronic apparatus |
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