WO2017012333A1 - 移动设备及其控制方法 - Google Patents
移动设备及其控制方法 Download PDFInfo
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- WO2017012333A1 WO2017012333A1 PCT/CN2016/072821 CN2016072821W WO2017012333A1 WO 2017012333 A1 WO2017012333 A1 WO 2017012333A1 CN 2016072821 W CN2016072821 W CN 2016072821W WO 2017012333 A1 WO2017012333 A1 WO 2017012333A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72448—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M2250/00—Details of telephonic subscriber devices
- H04M2250/12—Details of telephonic subscriber devices including a sensor for measuring a physical value, e.g. temperature or motion
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M2250/00—Details of telephonic subscriber devices
- H04M2250/22—Details of telephonic subscriber devices including a touch pad, a touch sensor or a touch detector
Definitions
- Embodiments of the present invention relate to a mobile device control method thereof.
- mobile devices As people's needs are getting higher and higher, the functions of mobile devices become more and more complicated, more beautiful interfaces, simpler and faster operations, more convenient controls, and more intelligent sensing processing, which are constantly pursued by people.
- Technology is the key technology to realize perception, which can realize intelligent perception, recognition and management in the process of implementing mobile device functions.
- the mobile device can satisfy the user's convenient and convenient functions at any time and any place. Therefore, the mobile device needs to work in various external environments. However, since the mobile device cannot automatically switch the working mode, the mobile device may be damaged at some time. Or the user is inconvenient to use, for example, the user puts the smart phone on the wooden table and chair, because the mobile phone has the vibration mode turned on, it is easy to cause the mobile phone to fall due to vibration and damage, for example, the user is used in a weak environment. Mobile phones, because the mobile phone can not self-perceive the ambient light, can not automatically increase the brightness, causing inconvenience to the user.
- An embodiment of the present invention provides a mobile device, including a function body, a detection module, a determination module, a control module, and a storage module.
- the storage module is configured to pre-store a plurality of reference data of a plurality of characteristic parameters, wherein each Each reference data of the characteristic parameters indicates a substance type;
- the detection module is configured to detect one of the characteristic parameters of the substance in contact with the functional body of the mobile device to obtain detection data of the characteristic parameter;
- the determining Module for comparison detection module The detection data of the characteristic parameter and the reference data of the corresponding characteristic data pre-stored by the storage module to determine a substance type that is in contact with the functional body of the mobile device;
- the control module is configured to determine according to the determining module The substance type controls the functional body of the mobile device to open a corresponding working mode.
- the function body of the mobile device includes multiple working modes, and the control module controls the function body of the mobile device to open a corresponding working mode, including:
- the control module determines, according to the substance type that is in contact with the functional body of the mobile device that is determined by the determining module, the first priority working mode that is corresponding to the mobile device is controlled to be a working mode that is prohibited by the user.
- the control module controls the function body of the mobile device to open a second priority working mode.
- the plurality of characteristic parameters pre-stored by the storage module include:
- the detection module is a sensor.
- the detection module includes a variety of sensors.
- the detection module includes a capacitive proximity sensor for detecting pressure, displacement, vibration frequency, and liquid level of a substance.
- the detection module includes a photosensor for detecting the intensity of ambient light.
- the detection module includes a touch sensor for detecting deformation and temperature of a substance.
- Another embodiment of the present invention provides a control method of a mobile device, where a plurality of reference data of a plurality of characteristic parameters are pre-stored in a storage module of the mobile device, wherein each reference data of each characteristic parameter indicates a reference Kind of substance, the control method includes:
- the mobile device is controlled to activate a corresponding working mode according to the determined type of substance in contact with the mobile device.
- FIG. 1 is a block diagram of a mobile device according to an embodiment of the present invention.
- FIG. 2 is a schematic diagram of the working principle of a vibration sensor according to an embodiment of the present invention.
- 3a and 3b are respectively a working principle diagram of a capacitive proximity sensor according to an embodiment of the present invention.
- FIG. 4 is a flowchart of a method for controlling a mobile device according to an embodiment of the present invention.
- Embodiments of the present invention provide a mobile device, which enables a user to enjoy a more intelligent mobile device.
- the sensor can sense different external environments, and then intelligently control the mobile device to work in different modes.
- the embodiment of the present invention provides a mobile device, as shown in FIG. 1 , which may include: a detection module 1 , a determination module 2 , a control module 3 , and a storage module 4 .
- the storage module 4 is configured to pre-store a plurality of reference data of a plurality of characteristic parameters, wherein each reference data of each characteristic parameter indicates a substance type;
- the detecting module 1 is configured to detect one of the characteristic parameters of the substance in contact with the functional body of the mobile device to obtain detection data of the characteristic parameter;
- the determining module 2 is configured to compare the detection data of the characteristic parameter obtained by the detecting module with the reference data of the corresponding characteristic data pre-stored by the storage module 4 to determine the kind of the substance in contact with the functional body of the mobile device;
- the control module 3 is configured to control the functional body of the mobile device to open a corresponding working mode according to the type of the substance determined by the determining module 2.
- the storage module 4 is used for pre-storing a plurality of reference data of a plurality of characteristic parameters, wherein each reference data of each of the characteristic parameters indicates a substance type; and the detecting module 1 is configured to detect one of the characteristic parameters of the substance in contact with the functional body of the mobile device to obtain The detection module 2 is configured to detect one of the characteristic parameters of the substance in contact with the functional body of the mobile device to obtain detection data of the characteristic parameter; the control module 3 is configured to determine according to the determining module 2 The type of the substance is controlled, and the function body of the mobile device is controlled to open a corresponding working mode, so that the mobile device can realize different working modes according to different environments detected.
- the mobile device when the mobile device detects that the substance in contact with the functional body of the mobile device is wood, the mobile device determines that the mobile device is placed on a table, chair, or the like at this time, and the vibration function is turned off to prevent it from falling from the table due to vibration.
- the vibration function When the mobile device detects that the substance in contact with the functional body of the mobile device is a human body, the vibration function is turned on to facilitate the user; when the mobile device detects that the substance in contact with the functional body of the mobile device is a liquid, it will be quickly turned on. Automatic shutdown mode to prevent damage due to liquid immersion.
- the mobile device When the mobile device is applied to different environments, the mobile device is controlled to work in different modes by detecting different external environments, which not only protects the mobile device from accidental damage, but also enables the user to enjoy smarter services of the mobile device. .
- the function body of the mobile device may include multiple working modes, and the control module controls the function body of the mobile device to enable the corresponding working mode
- the method may include: when the control module determines according to the determining module The type of the substance that is in contact with the functional body of the mobile device, and the first priority operating mode corresponding to the function body of the mobile device is controlled to be a working mode that is prohibited by the user, and the control module controls the function body of the mobile device to be turned on. Two priority working modes.
- the mobile device includes multiple working modes, for example, the mobile device is a mobile phone, and the mobile phone includes a working mode such as ringing, vibration, and silent.
- the phone When the user is in a meeting, in order to avoid affecting the conference, the phone will be turned off and set to vibrate mode.
- the control module controls the mobile device to turn off the vibration mode and select to turn on the ringing mode, however, because the user Avoid affecting the conference settings.
- the ring pattern is disabled, so the control module controls the mobile device to choose to turn on the second priority silent mode.
- the mobile device can set multiple working modes of priority levels, and the control module correspondingly controls the mobile device to sequentially select the corresponding working mode from the high priority to the low priority, so that the working mode of the mobile device conforms to the environment at the time, and also Enable users to enjoy more intelligent services.
- the detecting module may include: a collecting unit and a converting unit; wherein the collecting unit is configured to collect characteristic parameters of the substance in contact with the mobile device; and the converting unit is configured to convert the characteristic parameter of the substance in contact with the mobile device collected by the collecting unit into a characteristic of the substance type data.
- the detecting module is configured to detect the external environment where the mobile device is located, and needs to detect the type of the substance that is in contact with the mobile device, and the mobile device may open differently according to the detection result.
- Working mode the detecting process may be: detecting the kind of the substance by detecting the intrinsic characteristic parameter of the substance, that is, collecting the characteristic parameter inherent to the substance through the collecting unit, and converting the characteristic parameter of the characterizing substance into the movable device through the converting unit.
- the identified data signal, and then the mobile device can identify the type of material in contact with it, and then the corresponding selection opens different working modes, so that not only the mobile device can be protected from accidental damage, but also the user can enjoy the mobile device. Intelligent service.
- the plurality of reference data for indicating various characteristic parameters of the substance type stored in advance by the storage module may include: a vibration frequency and a dielectric constant for indicating the kind of the substance, At least one of light intensity, humidity and hardness.
- the type of the substance is determined according to the detection data of the characteristic parameter of the substance type.
- the characteristic parameters of the type of the indicator substance stored in the mobile device are not limited to the above, and may include other characteristic parameters indicating the kind of the substance, such as the fluidity parameter of the substance, the air pressure, the pH value, the odor, and the like.
- the plurality of reference data storing a plurality of characteristic parameters of the plurality of substance types can be compared to determine the type of the substance in contact with the functional body of the mobile device, and according to the detection result, the mobile device can open different working modes correspondingly, so that Not only can mobile devices be protected from accidental damage, but users can also enjoy smarter services for mobile devices.
- the detection of the external environment substance is implemented by the detection module, and the sensor may be used to implement a corresponding function, that is, the detection module may be a sensor.
- the detection module may be a sensor.
- detection of a substance in contact with a functional body of the mobile device may be implemented by a sensor technology.
- a vibration sensor can be used, which mainly receives the mechanical quantity and converts it into a proportional amount of electricity. Since it is also an electromechanical conversion device, it is also called a transducer, a vibrator, and the like.
- the vibration sensor does not directly convert the mechanical quantity that needs to be measured into electric quantity, but takes the mechanical quantity that needs to be measured as the input quantity of the vibration sensor, and then receives it by the mechanical receiving part to form another machine suitable for transformation. The quantity is finally converted into electricity by the electromechanical conversion part, so the performance of a vibration sensor is determined by the mechanical receiving part and the electromechanical conversion part.
- the work of the points is realized.
- the working principle diagram of the vibration sensor is as shown in FIG. 2, which is the same as the existing vibration sensor, and will not be described in detail herein.
- mechanical motion is the basic form of material motion
- sensors that test the vibration frequency of materials are also common sensors, such as mechanical vibrometers (such as Geiger vibrometers).
- the mechanical receiving principle of the vibration sensor is based on this.
- the working receiving principle of the relative vibrometer is to fix the instrument on the stationary bracket during the measurement, so that the contact rod and the object to be tested have the same vibration direction, and the elastic force of the spring is in contact with the surface of the object to be measured.
- the lever moves with it, and pushes the recording pen to draw a curve of the displacement of the vibrating object over time on the moving paper strip. According to this recording curve, the magnitude and frequency of the displacement can be calculated.
- the measured result of the relative mechanical receiving part is the relative vibration of the measured object relative to the reference body, and the absolute vibration of the measured object can be measured only when the reference body is absolutely stationary, however, There is a problem.
- absolute vibration When it is necessary to measure absolute vibration, but can not find a stationary reference point, such instruments are useless.
- the vibration of a diesel locomotive is tested on a moving diesel locomotive, and the vibration of the ground and the building is measured during an earthquake. There is no absolute reference point. In this case, another measurement method is required.
- the vibrometer is used for measurement, that is, the inertial vibration vibrometer is used.
- the vibrometer When the inertial mechanical vibrometer is used for vibration measurement, the vibrometer is directly fixed on the measuring point of the measured vibrating object, and when the vibrometer housing is connected with the measured vibrating object. During the movement, the elastically supported inertial mass will move relative to the outer casing, and the stylus mounted on the mass can record the relative vibration displacement amplitude of the mass element and the outer casing, and then use the inertial mass to oppose the outer casing. The relationship between the vibration displacement and the absolute vibration displacement waveform of the measured object can be obtained.
- the vibration frequency of the substance can be obtained, thereby determining the type of the substance, that is, the detection module that can be used in the mobile device can adopt each
- the vibration sensor or accelerometer detects the natural frequency of the substance to obtain the natural frequency of the type of the indicator substance, and compares it with the reference data of the vibration frequency of the type of the indicator substance stored in advance, and determines the type of the substance, for example,
- the mobile device determines that the substance in contact with the functional body of the mobile device is wood by detecting the vibration frequency of the substance, the mobile device defaults to the table, chair, etc., and the vibration function is turned off to prevent the vibration from falling off the table. This will protect the mobile device from accidental damage.
- the mobile device may include one or more sensors, that is, may pass corresponding substances of different kinds.
- Different types of sensors are used for detection. For example, if the natural frequency of the substance needs to be detected, the vibration sensor can be used for detection; if it is necessary to detect the light intensity, the photosensitive sensor can be used for detection; if it is necessary to detect the presence of liquid in the external environment, The humidity sensor can be used for detection, so that a plurality of sensors can be used to detect a plurality of substances, which is not limited herein.
- the detecting module may include a capacitive proximity sensor for detecting a pressure, a displacement, a vibration frequency, and a liquid level of the substance.
- the detection component of the capacitive proximity sensor is composed of an electrostatic capacitance and a high-frequency oscillator with a detection terminal and a grounding pole. As shown in FIG. 3a, there is usually a certain capacitance between the detection electrode and the ground, that is, the capacitance C.
- ⁇ 0 the vacuum dielectric constant
- ⁇ the relative dielectric constant
- A the area of the electrode plate
- ⁇ the distance between the two electrode plates
- the measuring head constitutes a plate of the capacitor, wherein the measuring The head includes the sensing electrode, and the other plate is the object itself.
- the dielectric between the object and the measuring head is often Changes, so that the measuring head is connected to the oscillation circuit changes ensue, thereby outputting a corresponding digital signal, the characteristic parameter detected data accordingly possible to obtain an indication of the substance to be detected.
- the detecting module may include a photosensitive sensor, and the photosensitive sensor may be used to detect the intensity of the light.
- the photosensitive sensor can be a phototube, a photomultiplier tube, a photoresistor, a phototransistor, a solar cell, an infrared sensor, an ultraviolet sensor, a fiber optic photoelectric sensor, a color sensor, a CCD, a CMOS image sensor, etc., and the light sensor is currently widely used.
- One of the sensors which plays a very important role in the automatic control and non-electrical electrical measurement technology.
- the light sensor is a sensor that converts an optical signal into an electrical signal by using a photosensitive element, which is not limited to the detection of light, but also As a detector element, other sensors are used to detect many non-electrical quantities, as long as these non-electric quantities are converted into changes in the optical signal.
- the photosensitive sensor can be applied to the detection module of the mobile device provided by the embodiment of the present invention, so that the detection module can detect the intensity of the surrounding ambient light, and then control the mobile device to open the work corresponding to the different intensity background light according to the intensity of the ambient light. The mode allows the user to use the mobile device under different intensity ambient light, and also reduces the power consumption of the mobile device.
- the mobile device may include a touch sensor, and the touch sensor may be used to detect deformation and temperature of the substance.
- a touch sensor can simulate changes in the deformation, vibration, and temperature of a substance by various sensing modes of a human fingertip.
- a robot configured with such a sensor can recognize glass from a metal, and can also use such a sensor.
- the prosthetic limb can of course also be arranged on the mobile device for detecting different substances, for example, when the mobile device detects that the pressure generated by the substance in contact with it exceeds a preset value, that is, the deformation of the detected substance exceeds a preset value, The alarm working mode is turned on to inform the user that the mobile device is under great pressure and needs to transfer the work place.
- a corresponding working mode can be set, and then the mobile device turns on the corresponding working mode for different environments, so that the mobile device provides the user with the corresponding working mode. Smarter services while protecting mobile devices from accidental damage.
- an embodiment of the present invention provides a method for controlling a mobile device according to the foregoing embodiment of the present invention.
- a plurality of reference data of a plurality of characteristic parameters are pre-stored in a storage module of the mobile device, where each characteristic
- Each reference data of the parameter indicates a substance type.
- the control method is as shown in FIG. 4 and may include:
- S101 Detect one of the characteristic parameters of a substance in contact with a functional body of the mobile device to obtain detection data of the characteristic parameter;
- S102 The detection data of the characteristic parameter obtained by the comparison detection module and the reference data of the corresponding characteristic data stored in advance by the storage module to determine a type of the substance that is in contact with the functional body of the mobile device;
- the detection data indicating the characteristic parameter of the substance type in contact with the mobile device is obtained according to the collected characteristic parameter of the substance in contact with the mobile device;
- the detection data of the characteristic parameter is compared with the reference data of the corresponding characteristic parameter stored in advance, and the type of the substance in contact with the mobile device is determined; and the corresponding type of the substance in contact with the mobile device is controlled, and the corresponding operation of the mobile device is controlled.
- the working mode so that the mobile device can realize different working modes according to different environments detected.
- the mobile device when the mobile device detects that the contact substance is wood, the mobile device defaults to the table, chair, etc., and the vibration function is turned off to prevent the vibration from falling off the table; when the contact is detected; When the quality is the human body, the vibration function is turned on to facilitate the user; when the substance around the mobile device is detected as liquid, the automatic shutdown mode is quickly turned on to prevent damage caused by liquid immersion, and the mobile device is applied.
- the vibration function is turned off to prevent the vibration from falling off the table
- the vibration function when the quality is the human body, the vibration function is turned on to facilitate the user; when the substance around the mobile device is detected as liquid, the automatic shutdown mode is quickly turned on to prevent damage caused by liquid immersion, and the mobile device is applied.
- step S102 may include, for example, collecting a characteristic parameter of a substance in contact with the mobile device, and converting the collected characteristic parameter of the substance in contact with the mobile device into A data signal indicating the type of substance.
- different working modes are opened correspondingly, so it is necessary to detect the external environment in which the mobile device is located, in particular, it is necessary to detect the type of the substance in contact with the mobile device, and the mobile device can respond according to the detection result. Turn on different working modes.
- the detection process can be: by detecting the intrinsic properties of the substance, so that the type of the substance can be detected, that is, by collecting the characteristic parameters inherent to the substance, and converting the characteristic parameters of the type of the substance into data that can be recognized by the mobile device.
- the signal, and then the mobile device can identify the type of material in contact with it, and then the corresponding selection opens different working modes, so that not only the mobile device can be protected from accidental damage, but also the user can enjoy the smarter service of the mobile device. .
- the embodiment of the present invention provides a mobile device and a control method.
- the mobile device includes: a detection module, a determination module, a control module, and a storage module.
- the storage module is configured to pre-store multiple reference data of multiple characteristic parameters, where Each reference data of each characteristic parameter indicates a kind of substance;
- the detecting module is configured to detect one of the characteristic parameters of the substance in contact with the functional body of the mobile device to obtain detection data of the characteristic parameter; Comparing the detection data of the characteristic parameter obtained by the detection module with the reference data of the corresponding characteristic data pre-stored by the storage module to determine the kind of the substance in contact with the functional body of the mobile device;
- the control module is configured to determine according to the determining module The type of substance that controls the functional body of the mobile device to open the corresponding working mode.
- the mobile device can enable different working modes according to different environments detected. For example, when the mobile device detects that the contact material is wood, the mobile device defaults to the table, chair, and the like, and the vibration function is turned off. Prevent the vibration from falling off the table; when the contact substance is detected as the human body, the vibration function is turned on to facilitate the user; when the substance around the mobile device is detected as liquid, the automatic shutdown mode is quickly turned on to prevent Because the liquid immersion damages it, when the mobile device is applied to different environments, by sensing different external environments, and then controlling the mobile device to work in different modes, the mobile device can be protected from accidental damage, and In order to enable users to enjoy smarter services for mobile devices.
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Abstract
Description
Claims (9)
- 一种移动设备,包括功能本体,检测模块、确定模块、控制模块和存储模块;其中,所述存储模块用于预先存储多种特性参数的多个参考数据,其中每个特性参数的每个参考数据指示一种物质种类;所述检测模块用于检测与移动设备的功能本体相接触的物质的一个所述特性参数以获得所述特性参数的检测数据;所述确定模块用于对比检测模块获得的所述特性参数的检测数据与存储模块预先存储的对应的特性数据的参考数据,以确定出与移动设备的功能本体相接触的物质种类;所述控制模块用于根据所述确定模块确定出的所述物质种类,控制所述移动设备的功能本体开启对应的工作模式。
- 如权利要求1所述的移动设备,其中,所述移动设备的功能本体包含多种工作模式,所述控制模块控制所述移动设备的功能本体开启对应的工作模式包括:当所述控制模块根据所述确定模块确定出的与所述移动设备的功能本体相接触的物质种类,控制所述移动设备对应开启的第一优先级工作模式为用户设定禁止的工作模式时,所述控制模块控制所述移动设备的功能本体对应开启第二优先级工作模式。
- 如权利要求1或2所述的移动设备,其中,所述存储模块预先存储的多种特性参数包括:用于指示物质种类的振动频率、介电常数、光强、湿度和硬度至少其中之一。
- 如权利要求1-3任一项所述的移动设备,其中,所述检测模块为传感器。
- 如权利要求4所述的移动设备,其中,所述检测模块包括多种传感器。
- 如权利要求5所示的移动设备,其中,所述检测模块包括电容式接近传感器,所述电容式接近传感器用于检测物质的压力、位移、振动频率和液位。
- 如权利要求5所示的移动设备,其中,所述检测模块包括光敏传感器, 所述光敏传感器用于检测环境光的强度。
- 如权利要求5所示的移动设备,其中,所述检测模块包括触控传感器,所述触控传感器用于检测物质的形变和温度。
- 一种移动设备的控制方法,所述移动设备的存数模块中预先存储多种特性参数的多个参考数据,其中,每个特性参数的每个参考数据指示一种物质种类,所述控制方法包括:检测与移动设备的功能本体相接触的物质的一个所述特性参数以获得所述特性参数的检测数据;对比检测模块获得的所述特性参数的检测数据与存储模块预先存储的对应的特性数据的参考数据,以确定出与移动设备的功能本体相接触的物质种类;根据确定出的与移动设备相接触的物质种类,控制移动设备开启对应的工作模式。
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CN105100469A (zh) | 2015-07-21 | 2015-11-25 | 京东方科技集团股份有限公司 | 一种移动设备 |
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CN106569664A (zh) * | 2016-10-31 | 2017-04-19 | 努比亚技术有限公司 | 一种终端桌面图标调整显示装置、终端及方法 |
CN107743169B (zh) * | 2017-09-14 | 2020-01-21 | 维沃移动通信有限公司 | 一种移动终端的控制方法及移动终端 |
CN108307051B (zh) * | 2018-01-18 | 2021-04-16 | Oppo广东移动通信有限公司 | 电子装置、碰撞数据处理方法及相关产品 |
CN108875729B (zh) * | 2018-06-01 | 2022-03-25 | 广东小天才科技有限公司 | 一种智能笔 |
CN108848267B (zh) * | 2018-06-27 | 2020-11-13 | 维沃移动通信有限公司 | 音频播放方法及移动终端 |
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