Artificial intelligence in electric vehicles

Project team:

Topicality:

Purposes:
1.
2.
3.

Plan

Ecology and artificial intelligence
Hybrid vehicles
Electric cars
Driverless vehicles
Problems of AI
Security problems of

Ecology and Artificial Intelligence

Relevance and challenges

The problem of ecology in the modern world

Plan

Disasters
Statistic
Areas of Use of AI

Disasters

Earthquake in Haiti
Happened in 2010.
More than
200.000
dead.

Disasters

Tsunami in the Pacific ocean
Happened in 2004.
More than
300.000

Disasters

Chernobyl accident
Happened in 1986.
About a
million

Statistic

8,5 billion t of CO2 emissions in 2017

Conclusion

The environment is becoming more pollution from cars every year.

Hybrid Vehicle

Definition of Hybrid Vehicle

- more than one power source

- power sources

Types of Hybrid Engines

parallel hybrid circuit

sequential hybrid circuit

sources work in couple

Range Rover Sport P400e

At the time of charging

Back view

Main view

Order of Main Parts

- 50 km using only an electric motor

-

Compare-Table

Conclusion

Hybrid

No gain

Low emission

Less fuel

Electric Cars

PURPOSE

the electric car to present and the main characteristics to show

Plan
First) To compare an electric car with a common car
Secondly) To

DYNAMIC OF SALES
In 2016 – 18750, In 2018 – 34000

COMPARISON of TESLA MODEL S40 WITH MERCEDES-BENZ C 43
Tesla Model

ACCELERATION AND ENERGY AND MAXIMUM SPEED

1)6,5 second’s 4,7 second’s
2)177 Km/h 250

STOCK MOTION AND FUEL CONSUMPTION PER 100 KM

3) 335 kilometers 825

JOB of TESLA MODEL S IN WINTER
Road stability
Battery

CONCLUSION
In conclusion I would like to say that electric cars have

DRIVERLESS VEHICLES

PLAN

1.The structure of driverless vehicles.
2. Top of the best driverless vehicles.

THE STRUCTURE of DRIVERLESS VEHICLES

RADAR COMPLEX
NECESSARY FOR: Determining the range of

THE STRUCTURE of DRIVERLESS VEHICLES

LIDAR-(light identification detection and ranking).
NECESSARY FOR:

THE STRUCTURE of DRIVERLESS VEHICLES

VIDEO CAMERA
REQUIRED FOR: Definition of markings, signs,

THE STRUCTURE of DRIVERLESS VEHICLES

GPS SENSORS
NECESSARY FOR: Correction of the route

CLASSES OF AUTOMATION

TOP OF THE BEST DRIVERLESS VEHICLES

FOURTH PLACE: NISSAN IDS CONCEPT
Radar: 4
LIDAR: 1
Camera: 5
GPS

TOP OF THE BEST DRIVERLESS VEHICLES
SECOND PLACE: LEXUS LS+
Radar: 6
LIDAR: 2
Camera: 4
GPS module: 2
Artificial

COMPARATIVE TABLE

Problems of AI

Plan

Social arrears

creates jobs
need specialists
start taking jobs

Production arrears

as operator assistants
autonomous production
damage to production

Home arrears

expensive prices
dangerous cases
unnecessary

Cars arrears

357 million kilometers
Tesla Model S
Job of the car
The

Conclusion

young technology
successful future
great things and discoveries

Security problems of AI

Weather conditions

Infrastructure

Human factor

Dynamic position sensors in space
Improvement and increase of

Batteries in electric cars

Plan

Battery charging problems.
Types of batteries.
Fourth-system interacting with the battery.
Pros and cons

Battery Charging Problems

Supercharger

Battery Charging Problems

Superchargers location map

Types of Batteries

Alkaline AKB
Low antimony

Helium Battery

Types of Batteries

Tesla Roadster

Types of Batteries

Lithium ion batteries of Tesla Roadster

Power reserve = 1000km
Weight

Fourth-system Interacting with the Battery

Battery degradation schedule

Pros and Cons of Battery

Pros
Reducing harmful exhaust fumes.
After the termination of

What does the battery consist of

Tesla Model S battery

What does the battery consist of.

Tesla Model S Battery without protective

What does the battery consist of.

Battery packs

Elements installed in packs

What does the battery consist of.

Battery circuit of Tesla Model S

Cells

General conclusion

studied the question
pluses and minuses
successful future
great things and