CN110126832B - Intelligent driving system and intelligent driving method - Google Patents
Intelligent driving system and intelligent driving method Download PDFInfo
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- CN110126832B CN110126832B CN201910312707.9A CN201910312707A CN110126832B CN 110126832 B CN110126832 B CN 110126832B CN 201910312707 A CN201910312707 A CN 201910312707A CN 110126832 B CN110126832 B CN 110126832B
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- 206010039203 Road traffic accident Diseases 0.000 abstract description 6
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W30/00—Purposes of road vehicle drive control systems not related to the control of a particular sub-unit, e.g. of systems using conjoint control of vehicle sub-units
- B60W30/18—Propelling the vehicle
- B60W30/182—Selecting between different operative modes, e.g. comfort and performance modes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W50/08—Interaction between the driver and the control system
- B60W50/14—Means for informing the driver, warning the driver or prompting a driver intervention
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W2520/00—Input parameters relating to overall vehicle dynamics
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W2555/00—Input parameters relating to exterior conditions, not covered by groups B60W2552/00, B60W2554/00
- B60W2555/20—Ambient conditions, e.g. wind or rain
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Abstract
The invention discloses an intelligent driving system and an intelligent driving method, which comprise a control module, wherein the control module is respectively connected with a vehicle environment information detection module, an automatic driving system and a temperature regulation module. The control module judges according to the conditions of the light intensity signal and the temperature detection signal, selects to enter an auxiliary driving mode or an autonomous driving mode, and enters the auxiliary driving mode when the light intensity detection signal is lower than a first set value and/or the temperature detection signal is higher than a second set value, so that a driver controls a vehicle, and an intelligent driving system assists and reminds, thereby effectively reducing the accident rate of traffic accidents.
Description
Technical Field
The invention relates to the technical field of driving, in particular to an intelligent driving system and an intelligent driving method.
Background
With the development of science and technology, intelligent driving of automobiles is gradually known. The intelligent driving system can acquire the relevant information of the vehicle by utilizing the vehicle-mounted sensing system, and intelligently selects a more appropriate and safer driving mode.
Light, driver's cabin temperature all can exert an influence to vehicle safety of traveling, and these two factors can not generally be considered to current intelligent driving system, can produce adverse effect to the security of driving, and light then influences driver's sight easily when crossing excessively, makes the driver can't in time master the road conditions in the place ahead, if the driver's cabin temperature is too high, then makes the driver get into driver fatigue's state easily, seriously influences the driving.
Disclosure of Invention
In order to solve the technical problems, the invention provides an intelligent driving system and an intelligent driving method, which adjust a vehicle driving mode according to the conditions of real-time detection of the light intensity outside a vehicle and the temperature of a cab, so as to realize safe driving.
The technical scheme adopted by the invention for solving the technical problems is as follows: an intelligent driving system and an intelligent driving method comprise a control module, a vehicle environment information detection module, an automatic driving system and a temperature regulation module;
the control module respectively sends control instructions to the automatic driving system and the temperature adjusting module according to the detection signals of the vehicle environment information detection module;
the vehicle environment information detection module is used for detecting the intensity of light outside the vehicle and the internal temperature of the cab;
the automatic driving system is used for assisting a driver in driving the vehicle;
the temperature adjusting module is used for adjusting the temperature inside the cab.
Further, the face collecting device further comprises a face collecting module connected with the control module, and the face collecting module is used for collecting face information of a driver.
The vehicle-mounted intelligent warning system further comprises a warning module and a wireless communication module, wherein the warning module and the wireless communication module are respectively connected with the control module, the warning module is used for sending warning signals to a driver and/or external personnel of the vehicle, and the wireless communication module is used for realizing data interaction with an external mobile terminal.
Further, the device also comprises a positioning module connected with the control module.
Further, the vehicle environment information detection module comprises a light sensor for detecting ambient light around the vehicle, a temperature sensor for detecting the internal temperature of the cab, a plurality of cameras respectively arranged around the vehicle, and a radar.
An intelligent driving method, comprising the steps of:
s1, starting the vehicle, and acquiring detection signals after the intelligent driving system is initialized, wherein the detection signals at least comprise light intensity detection signals outside the vehicle and temperature detection signals inside a cab;
and S2, judging according to the conditions of the light intensity signal and the temperature detection signal, selecting to enter an auxiliary driving mode or an autonomous driving mode by the intelligent driving system, and entering the auxiliary driving mode when the light intensity detection signal is lower than a first set value and/or the temperature detection signal is higher than a second set value.
Further, the step of specifically selecting the driving mode in step S2 is:
sa1, whether the light intensity detection signal outside the vehicle is lower than a first set value; if yes, the process proceeds to step Sa2, and if no, the process proceeds to step Sa 4;
sa2, turning on vehicle lights;
sa3, detecting the light intensity outside the vehicle again, determining whether the light intensity is higher than the first set value, if yes, going to step Sa4, if no, going to step Sa 7;
sa4, determining whether the temperature detection signal of the cab is higher than a second set value, if yes, entering step Sa5, and if no, entering step Sa 8;
sa5, starting a temperature adjusting module to reduce the temperature of the cab;
sa6, starting timing, detecting the temperature of the cab again when the set first time value is reached, judging whether the temperature is lower than a second set value, if yes, entering a step Sa8, and if no, entering a step Sa 7;
sa7, entering an auxiliary driving mode, driving the vehicle by the driver, and assisting the driver to control the vehicle by the intelligent driving system;
sa8, entering an autonomous driving mode, and driving the vehicle autonomously by the driver.
Further, step S2 is the following step:
sa9, after entering an autonomous driving mode, acquiring a face image signal of a driver, and simultaneously starting timing and recording driving time;
sa10, when the set second time value is over, collecting the face image signal of the driver again, comparing the newly collected face image signal with the previous face image signal, judging whether the signals are the same driver, if yes, entering the step Sa11, and if no, returning to Sa10 for re-judgment;
sa11, entering an auxiliary driving mode and giving out a warning signal to continuously remind the driver of stopping for a rest.
Further, the step of specifically selecting the driving mode in step S2 is:
sb1, judging whether the temperature of the cab is lower than a second set value; if yes, the process proceeds to step Sb2, and if no, the process proceeds to step Sb 5;
sb2, determining whether the light intensity detection signal outside the vehicle is lower than a first set value, if yes, proceeding to step b3, and if no, proceeding to step Sb 8;
sb3, turning on vehicle light;
sb4, detecting the light intensity outside the vehicle again, determining whether the light intensity is lower than the first set value, if yes, proceeding to Sb7, and if no, proceeding to Sb 8;
sb5, starting a temperature adjusting module, and reducing the temperature of the cab;
sb6, starting timing, detecting the temperature of the cab again when the set first time value is reached, and determining whether the temperature is lower than a second set value, if yes, going to step Sb2, and if no, going to step Sb 7;
sb7, entering an auxiliary driving mode, driving the vehicle by a driver, and assisting the driver to control the vehicle by the intelligent driving system;
sb8, enter autonomous driving module, autonomously drive vehicle by driver.
Further, step S2 includes the following steps:
sb9, after entering an autonomous driving mode, acquiring a face image signal of a driver, and simultaneously starting timing and recording driving time;
sb10, when the set second time value has elapsed, acquiring the face image signal of the driver again, comparing the latest acquired face image signal with the previous face image signal, determining whether the acquired face image signal is the same driver, if yes, proceeding to step Sb11, if no, returning to Sb10 for re-determination;
and Sb11, entering an auxiliary driving mode and giving out a warning signal to continuously remind a driver of stopping for a rest.
The invention has the beneficial effects that: the intelligent driving system adjusts the driving mode in real time according to the light intensity outside the vehicle and the temperature of the cab, enters the auxiliary driving mode when the light is too low and/or the temperature of the cab is too high, controls the vehicle by the driver, assists and reminds, and can effectively reduce the accident rate of traffic accidents.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic system diagram of a preferred embodiment of the present invention;
FIG. 2 is a schematic diagram of the main steps of a preferred embodiment of the present invention;
FIG. 3 is a schematic diagram of the detailed steps of a preferred embodiment of step S2 of the present invention;
FIG. 4 is a schematic diagram of another preferred embodiment of step S2 according to the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly and completely understood, the conception, specific structure and technical effects of the present invention will be described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, features and effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive efforts, and all embodiments are within the protection scope of the present invention.
Referring to fig. 1, in a preferred embodiment, an intelligent driving system and an intelligent driving method include a control module 1, a vehicle environment information detection module 2, an automatic driving system 3, and a temperature adjustment module 4;
the control module 1 respectively sends control instructions to the automatic driving system 3 and the temperature adjusting module 4 according to detection signals of the vehicle environment information detection module 2, the control module 1 can adopt controllers with models of STM32F103RCT6, DS89C430 or MAXQ7670AAT L/V + T and the like as a core processor, compares collected detection signals with preset set values and sends related instructions, meanwhile, the control module 1 further comprises a memory and a timer which are respectively connected with the controllers, the memory is used for storing related program instructions, image processing algorithms, face recognition algorithms and the like, and can also store related image data, driver related information and the like, and the timer is used for timing and feeding back timing duration to the controllers.
The vehicle environment information detection module 2 is used for detecting the external light intensity of the vehicle and the internal temperature of the cab, and the vehicle environment information detection module 2 at least comprises a light sensor for detecting the ambient light around the vehicle and a temperature sensor for detecting the internal temperature of the cab, and also comprises a plurality of cameras and radars which are respectively arranged around the vehicle, so that the data acquisition is carried out on the running environment of the vehicle and is fed back to the control module 1, and the control module 1 controls the automatic driving system 3 to make corresponding actions;
the automatic driving system 3 is used for assisting a driver in driving a vehicle, and in this embodiment, the automatic driving system 3 may adopt a Pilot Assist Pilot system or an Apollo 1.0/2.0/3.0 system, which at least includes an adaptive cruise function (ACC) and a lane keeping function (L KS).
The working principle of the self-adaptive cruise function is as follows: the control module 1 detects the road ahead of the vehicle according to the radar installed in front of the vehicle and judges whether the vehicle with slower speed exists. If there is a slower vehicle, the control module 1 sends a command to the autopilot system 3, and the autopilot system 3 will reduce the speed of the vehicle and control the gap or time gap with the vehicle in front. If the vehicle is detected not to be on the road, the speed of the vehicle is increased to the speed set before. This operation enables autonomous deceleration or acceleration without driver intervention. The primary way that the ACC controls vehicle speed is through engine throttle control and appropriate braking.
The working principle of the lane keeping function is as follows: the control module 1 receives an image signal fed back by a camera arranged above the inner side of a front window; the camera can clearly see the lane line to form a clear image. And judging whether the vehicle is in the specified lane or not through a set algorithm. If the vehicle deviates from the lane (left and right deviation), the automatic driving system 3 gives an alarm signal and a deviation correction instruction.
The temperature regulation module 4 is used for regulating the temperature in the cab, the temperature regulation module 4 is an air conditioning system which directly adopts a vehicle, and when the control module 1 receives that the temperature in the cab is too high, the air conditioning system can be automatically started, the temperature in the cab is reduced, a driver can keep clear, and the driving safety is improved.
Preferably, the face recognition system further comprises a face collection module 5 connected with the control module 1, wherein the face collection module 5 is used for collecting face information of the driver, the face collection module 5 comprises a camera and an image processing unit, the camera is arranged in the driver and used for uninterruptedly shooting a face image of the driver and feeding back the face image to the control module 1, the control module 1 can automatically compare the latest face image signal with the last face image signal and judge whether the face image signal is the same driver, so that a face recognition algorithm is preset in the control module 1 and the face can be recognized.
Preferably, the vehicle-mounted intelligent warning system further comprises an alarm module 6 and a wireless communication module 7 which are respectively connected with the control module 1, wherein the alarm module 6 is used for sending warning signals to a driver and/or personnel outside the vehicle, the wireless communication module 7 is used for realizing data interaction with an external mobile terminal, the alarm module 6 comprises a buzzer and a voice player, the buzzer is used for reminding the driver and/or the voice player is used for reminding the driver, the wireless communication module 7 is used for realizing data interaction with the external mobile terminal, and the communication protocols for realizing data interaction comprise a WiFi protocol, a bluetooth protocol, a ZigBee protocol and an NFC protocol; the method can also be used for the remote wireless data transmission of 2G/3G/4G/5G.
Preferably, still include the orientation module 8 of being connected with control module 1, orientation module 8 includes GPS location chip and big dipper location chip, but the position of vehicle is monitored.
An intelligent driving method, referring to fig. 2, comprising the steps of:
s1, starting the vehicle, and acquiring detection signals after the intelligent driving system is initialized, wherein the detection signals at least comprise light intensity detection signals outside the vehicle and temperature detection signals inside a cab;
and S2, judging according to the conditions of the light intensity signal and the temperature detection signal, selecting to enter an auxiliary driving mode or an autonomous driving mode by the intelligent driving system, and entering the auxiliary driving mode when the light intensity detection signal is lower than a first set value and/or the temperature detection signal is higher than a second set value.
Preferably, referring to FIG. 3, a preferred embodiment; the step of specifically selecting the driving mode at step S2 is:
sa1, the vehicle environment information detection module 2 detects the light intensity outside the vehicle and feeds back a light intensity detection signal to the control module 1, and the control module 1 determines whether the light intensity detection signal is lower than a first set value; if yes, the process proceeds to step Sa2, and if no, the process proceeds to step Sa 4;
sa2 and the control module 1 send instructions to a vehicle lighting system, the vehicle lighting is turned on, the light condition of a road ahead can be improved by turning on the vehicle lighting system, the visible range is improved, and therefore driving safety is improved, and the lighting system comprises but is not limited to a low beam light, a high beam light and a fog light;
the Sa3 and the vehicle environment information detection module 2 detect the light intensity outside the vehicle again and feed back the light intensity to the control module 1, the control module 1 judges whether the light intensity is higher than a first set value, if yes, the step Sa4 is performed, and if no, the step Sa7 is performed;
sa4, vehicle environment information detection module 2 detects the temperature of the cab and feeds back a temperature detection signal to control module 1, control module 1 judges whether the temperature detection signal of the cab is higher than a second set value, if yes, step Sa5 is performed, and if no, step Sa8 is performed;
sa5 and the control module 1 send a starting instruction to the temperature adjusting module 4, start the temperature adjusting module 4 and reduce the temperature of the cab; if the temperature of the cab is too high, the fatigue degree of the driver can be aggravated, and the fatigue degree of the driver can be relieved by reducing the temperature through the temperature adjusting module 4, so that the influence on the driving is avoided;
after the Sa6 and the control module 1 send instructions to the temperature adjusting module 4, timing is started at the same time, when the set first time value is reached, the vehicle environment information detection module 2 detects the temperature of the cab again and feeds the temperature back to the control module 1, the control module 1 judges whether the temperature detection signal is lower than a second set value, if yes, the step Sa8 is carried out, and if no, the step Sa7 is carried out;
the Sa7 and the control module 1 issue a start instruction to the automatic driving system 3, start the automatic driving system 3 and enter an auxiliary driving mode, the driver drives the vehicle, and the intelligent driving system assists the driver in controlling the vehicle, wherein the auxiliary driving mode starts an adaptive cruise function (ACC) and a lane keeping function (L KS), but the driver still needs to sense and monitor the vehicle;
sa8 and control module 1 issue a stop instruction to autonomous driving system 3, stop autonomous driving system 3, and enter an autonomous driving mode, so that the driver autonomously drives the vehicle.
In this embodiment, the control module 1 may send a start or stop instruction to the automatic driving system in real time according to the light intensity detection signal outside the vehicle and the temperature detection signal of the cab fed back by the vehicle environment information detection module 2, so as to adjust the driving mode, enter the auxiliary driving mode when the light is too low and/or the temperature of the cab is too high, control the vehicle by the driver, and the intelligent driving system assists and reminds, so as to effectively reduce the accident rate of the traffic accident.
Preferably, step S2 is the following step:
sa9, after entering the autonomous driving mode, the face image signal of the driver is collected by the face collecting module 5 and fed back to the control module 1, the control module 1 stores the face image signal for the next use, and the control module 1 starts timing and records the driving time length at the same time;
sa10, when a set second time value is exceeded, the control module 1 sends an instruction to the face acquisition module 5, so that the face acquisition module 5 acquires the face image signal of the driver again, the control module 1 compares the latest acquired face image signal with the previous face image signal to judge whether the signals are the same driver, if yes, the step Sa11 is carried out, and if not, the step Sa10 is returned to judge again; wherein, the general people are easy to enter the fatigue state after continuously driving for 4 hours, so the second time value can be set between 3 hours and 5 hours;
sa11 and control module 1 send a start instruction to automatic driving system 3, start automatic driving system 3 and enter an auxiliary driving mode, a driver drives a vehicle, an intelligent driving system assists the driver in controlling the vehicle, and control module 1 also starts alarm module 6, so that alarm module 6 sends out a warning signal to uninterruptedly remind the driver of stopping for a rest.
Preferably, since the subjective ability of drivers to voluntarily stop and rest is poor, most of drivers have strong luck psychology, and even if the drivers give an alarm to the drivers when the driving time is too long, the drivers can not take care of the drivers to continue driving, so that traffic accidents are easy to happen. The system provided by this embodiment may not only perform local alarm, but also perform remote alarm, that is, in step Sa11, the control module 1 may also simultaneously send the information of the driver, including but not limited to the name, the position, the license plate number, and the driving duration of the driver, to the cloud server through the wireless communication module 7, and the cloud server sends the relevant information to the mobile terminal of the authorizer, and the mobile terminal of the authorizer includes but not limited to the family of the driver, and the law enforcement of the traffic supervision department, so as to effectively reduce the fatigue driving situation of the driver.
Preferably, referring to fig. 4, as another preferred embodiment, the step S2 specifically selects the driving mode includes:
sb1, the vehicle environment information detection module 2 detects the temperature of the cab and feeds a temperature detection signal back to the control module 1, and the control module 1 judges whether the temperature of the cab is lower than a second set value; if yes, the process proceeds to step Sb2, and if no, the process proceeds to step Sb 5;
sb2, the vehicle environment information detection module 2 detects the light intensity outside the vehicle and feeds back the light intensity to the control module 1, the control module 1 determines whether the light intensity detection signal outside the vehicle is lower than a first set value, if yes, the step b3 is performed, and if no, the step Sb8 is performed;
sb3 and control module 1 send an instruction to a lighting system of a vehicle, turn on the vehicle light, and by turning on the lighting system of the vehicle, the light condition of a road ahead can be improved, and the visible range can be improved, thereby improving driving safety, and the lighting system includes, but is not limited to, a low beam light, a high beam light, and a fog light;
sb4, the vehicle environment information detection module 2 detects the light intensity outside the vehicle again and feeds it back to the control module 1, the control module 1 determines whether it is lower than the first set value, if yes, it goes to step Sb7, if no, it goes to step Sb 8;
sb5 and the control module 1 send a starting instruction to the temperature adjusting module 4, the temperature adjusting module 4 is started, and the temperature of the cab is reduced; if the temperature of the cab is too high, the fatigue degree of the driver can be aggravated, and the fatigue degree of the driver can be relieved by reducing the temperature through the temperature adjusting module 4, so that the influence on the driving is avoided;
sb6 and the control module 1 start timing after sending an instruction to the temperature adjustment module 4, when the set first time value is reached, the vehicle environment information detection module 2 detects the temperature of the cab again and feeds back the temperature to the control module 1, the control module 1 judges whether the temperature detection signal is lower than the second set value, if yes, the process goes to step Sb2, and if no, the process goes to step Sb 7;
sb7, the control module 1 sends a start instruction to the automatic driving system 3, starts the automatic driving system 3 and enters an assistant driving mode, and the driver drives the vehicle, and the intelligent driving system assists the driver in controlling the vehicle, wherein the assistant driving mode starts the adaptive cruise function (ACC) and the lane keeping function (L KS), but the driver still needs to sense and monitor the vehicle;
sb8 and the control module 1 issue a stop instruction to the automatic driving system 3 to stop the automatic driving system 3 and enter the autonomous driving mode, so that the driver autonomously drives the vehicle.
In this embodiment, the control module 1 may send a start or stop instruction to the automatic driving system in real time according to the light intensity detection signal outside the vehicle and the temperature detection signal of the cab fed back by the vehicle environment information detection module 2, so as to adjust the driving mode, enter the auxiliary driving mode when the light is too low and/or the temperature of the cab is too high, control the vehicle by the driver, and the intelligent driving system assists and reminds, so as to effectively reduce the accident rate of the traffic accident.
Preferably, step S2 further includes the steps of:
sb9, after entering an autonomous driving mode, the face acquisition module 5 acquires a face image signal of a driver and feeds the face image signal back to the control module 1, the control module 1 stores the face image signal for the next use, and the control module 1 starts timing and records the driving time length simultaneously;
sb10, when the set second time value is exceeded, the control module 1 sends an instruction to the face image collecting module 5 to make the face image collecting module 5 collect the face image signal of the driver again, the control module 1 compares the latest collected face image signal with the previous face image signal and determines whether the signals are the same driver, if yes, the process goes to Sb11, and if no, the process returns to Sb10 to make a re-determination; wherein, the general people are easy to enter the fatigue state after continuously driving for 4 hours, so the second time value can be set between 3 hours and 5 hours;
sb11, enter the assistant driving mode and issue a warning signal to constantly remind the driver of a stop, the control module 1 issues a start instruction to the automatic driving system 3 to start the automatic driving system 3 and enter the assistant driving mode, the driver drives the vehicle, the intelligent driving system assists the driver in controlling the vehicle, the control module 1 also starts the alarm module 6 to make the alarm module 6 issue a warning signal to constantly remind the driver of a stop.
Preferably, since the subjective ability of drivers to voluntarily stop and rest is poor, most of drivers have strong luck psychology, and even if the drivers give an alarm to the drivers when the driving time is too long, the drivers can not take care of the drivers to continue driving, so that traffic accidents are easy to happen. The system provided by this embodiment may perform not only local alarm but also remote alarm, that is, in step Sb11, the control module 1 may also simultaneously send the information of the driver, including but not limited to the name of the driver, the vehicle position, the license plate number, and the driving duration, to the cloud server through the wireless communication module 7, and the cloud server sends the relevant information to the mobile terminal of the authorizer, and the mobile terminal of the authorizer includes but not limited to the family of the driver, and the law enforcement of the traffic supervision department, so that the fatigue driving situation of the driver may be effectively reduced.
Preferably, the first and second setting values are defined according to sufficient light intensity and comfortable temperature sensed by a general person, and may be set according to the driver's requirement, and the first time value may be set according to the performance of the temperature adjusting module 4 or the driver's requirement.
The above description is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by any similar or identical means.
Claims (5)
1. An intelligent driving method is characterized by comprising the following steps:
s1, starting the vehicle, and acquiring detection signals after the intelligent driving system is initialized, wherein the detection signals at least comprise light intensity detection signals outside the vehicle and temperature detection signals inside a cab;
s2, judging according to the conditions of the light intensity signal and the temperature detection signal, enabling the intelligent driving system to select to enter an auxiliary driving or autonomous driving mode, and when the light intensity detection signal is lower than a first set value and/or the temperature detection signal is higher than a second set value, firstly starting the vehicle light and/or starting the temperature adjusting module; acquiring a light intensity or temperature detection signal again, and entering an auxiliary driving mode if the light intensity detection signal is still lower than a first set value or the temperature detection signal is still higher than a second set value; if the light intensity detection signal is higher than a first set value and the temperature detection signal is lower than a second set value, entering an autonomous driving mode;
the auxiliary driving mode specifically comprises the following steps: the vehicle is driven by a driver, and an intelligent driving system assists the driver in controlling the vehicle, the intelligent driving system comprising at least an adaptive cruise function and a lane keeping function.
2. The intelligent driving method according to claim 1, wherein the step S2 of specifically selecting the driving mode comprises:
sa1, judging whether the light intensity detection signal outside the vehicle is lower than a first set value; if yes, the process proceeds to step Sa2, and if no, the process proceeds to step Sa 4;
sa2, turning on vehicle lights;
sa3, detecting the light intensity outside the vehicle again, determining whether the light intensity is higher than the first set value, if yes, going to step Sa4, if no, going to step Sa 7;
sa4, determining whether the temperature detection signal of the cab is higher than a second set value, if yes, entering step Sa5, and if no, entering step Sa 8;
sa5, starting a temperature adjusting module to reduce the temperature of the cab;
sa6, starting timing, detecting the temperature of the cab again when the set first time value is reached, judging whether the temperature is lower than a second set value, if yes, entering a step Sa8, and if no, entering a step Sa 7;
sa7, entering an auxiliary driving mode, driving the vehicle by the driver, and assisting the driver to control the vehicle by the intelligent driving system;
sa8, entering an autonomous driving mode, and driving the vehicle autonomously by the driver.
3. The intelligent driving method according to claim 2, wherein step S2 further comprises the steps of:
sa9, after entering an autonomous driving mode, acquiring a face image signal of a driver, and simultaneously starting timing and recording driving time;
sa10, when the set second time value is over, collecting the face image signal of the driver again, comparing the newly collected face image signal with the previous face image signal, judging whether the signals are the same driver, if yes, entering the step Sa11, and if no, returning to Sa10 for re-judgment;
sa11, entering an auxiliary driving mode and giving out a warning signal to continuously remind the driver of stopping for a rest.
4. The intelligent driving method according to claim 1, wherein the step S2 of specifically selecting the driving mode comprises:
sb1, judging whether the temperature of the cab is lower than a second set value; if yes, the process proceeds to step Sb2, and if no, the process proceeds to step Sb 5;
sb2, determining whether the light intensity detection signal outside the vehicle is lower than a first set value, if yes, proceeding to step b3, and if no, proceeding to step Sb 8;
sb3, turning on vehicle light;
sb4, detecting the light intensity outside the vehicle again, determining whether the light intensity is lower than the first set value, if yes, proceeding to Sb7, and if no, proceeding to Sb 8;
sb5, starting a temperature adjusting module, and reducing the temperature of the cab;
sb6, starting timing, detecting the temperature of the cab again when the set first time value is reached, and determining whether the temperature is lower than a second set value, if yes, going to step Sb2, and if no, going to step Sb 7;
sb7, entering an auxiliary driving mode, driving the vehicle by a driver, and assisting the driver to control the vehicle by the intelligent driving system;
sb8, enter autonomous driving module, autonomously drive vehicle by driver.
5. The intelligent driving method according to claim 4, wherein step S2 further comprises the steps of:
sb9, after entering an autonomous driving mode, acquiring a face image signal of a driver, and simultaneously starting timing and recording driving time;
sb10, when the set second time value has elapsed, acquiring the face image signal of the driver again, comparing the latest acquired face image signal with the previous face image signal, determining whether the acquired face image signal is the same driver, if yes, proceeding to step Sb11, if no, returning to Sb10 for re-determination;
and Sb11, entering an auxiliary driving mode and giving out a warning signal to continuously remind a driver of stopping for a rest.
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CN113511156A (en) * | 2021-05-08 | 2021-10-19 | 山西三友和智慧信息技术股份有限公司 | Vehicle driving auxiliary system based on artificial intelligence |
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