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Autonomous Vehicle Maneuvering at the Limit of Friction

2020-10-23 Electronic books
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Release : 2020-10-23
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Book Synopsis Autonomous Vehicle Maneuvering at the Limit of Friction by : Victor Fors

Download or read book Autonomous Vehicle Maneuvering at the Limit of Friction written by Victor Fors. This book was released on 2020-10-23. Available in PDF, EPUB and Kindle. Book excerpt: Without a driver to fall back on, a fully self-driving car needs to be able to handle any situation it can encounter. With the perspective of future safety systems, this research studies autonomous maneuvering at the tire-road friction limit. In these situations, the dynamics is highly nonlinear, and the tire-road parameters are uncertain. To gain insights into the optimal behavior of autonomous safety-critical maneuvers, they are analyzed using optimal control. Since analytical solutions of the studied optimal control problems are intractable, they are solved numerically. An optimization formulation reveals how the optimal behavior is influenced by the total amount of braking. By studying how the optimal trajectory relates to the attainable forces throughout a maneuver, it is found that maximizing the force in a certain direction is important. This is like the analytical solutions obtained for friction-limited particle models in earlier research, and it is shown to result in vehicle behavior close to the optimal also for a more complex model. Based on the insights gained from the optimal behavior, controllers for autonomous safety maneuvers are developed. These controllers are based on using acceleration-vector references obtained from friction-limited particle models. Exploiting that the individual tire forces tend to be close to their friction limits, the desired tire slip angles are determined for a given acceleration-vector reference. This results in controllers capable of operating at the limit of friction at a low computational cost and reduces the number of vehicle parameters used. For straight-line braking, ABS can intervene to reduce the braking distance without prior information about the road friction. Inspired by this, a controller that uses the available actuation according to the least friction necessary to avoid a collision is developed, resulting in autonomous collision avoidance without any estimation of the tire–road friction. Investigating time-optimal lane changes, it is found that a simple friction-limited particle model is insufficient to determine the desired acceleration vector, but including a jerk limit to account for the yaw dynamics is sufficient. To enable a tradeoff between braking and avoidance with a more general obstacle representation, the acceleration-vector reference is computed in a receding-horizon framework. The controllers developed in this thesis show great promise with low computational cost and performance not far from that obtained offline by using numerical optimization when evaluated in high-fidelity simulation.

Towards Autonomous Driving at the Limit of Friction

2014
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Release : 2014
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Book Synopsis Towards Autonomous Driving at the Limit of Friction by : Sirui Song

Download or read book Towards Autonomous Driving at the Limit of Friction written by Sirui Song. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: Autonomous vehicles have become a reality, many vehicles have implemented some features to allow partial or full autonomy; however, full autonomous driving near the limit of friction still presents many obstacles, especially near the limit of friction. Autonomous test vehicles are expensive to build and maintain, running the vehicles usually requires highly specialized training, and testing can be dangerous. Research has shown that small sized scaled vehicles may be used as an alternative to full size vehicle testing. The first part of this thesis presents the construction of a 1=5th scaled vehicle testbed. This testbed is inexpensive to construct, easy to maintain, and safe to test compared to full size vehicles. In the linear region, the dynamic response of the tires also closely mimics full size tires and the Dugoff tire model. The small sized testbed is therefore an ideal alternative to full size vehicles. The interaction between the road and the tires remains a challenge to estimate, but a requirement for eff ective control. Tire dynamics are highly non-linear, and are dependent on many variables. Tire slip angles are di fficult to estimate without expensive sensors set-up. Many linear and non-linear estimation methods have been developed to tackle this problem, but each having its limitations. The second part of the thesis presents a method for slip angle estimation, and proposes an observer design which integrates a linear component with the Dugoff tire model and a pneumatic trail estimator. This design is fast to operate, and does not require expensive sensors. With the addition of the pneumatic trail block, accurate slip angles can be obtained in the tires linear and saturation regions equally. Controlling near the limit of friction requires consistently accurate tire states, which is di fficult to achieve with slip angles. With the margin of error under a degrees, a slight error in slip angle estimates while operating at the limit of friction may result in loss of control. The final contribution of this thesis proposes a simpli ed feedforward lateral controller based on the concept of Centre of Percussion (COP), and a longitudinal controller that operates based on lateral acceleration. This control scheme avoids using slip angles, but still pushes the vehicle performance to the limit of friction. The architecture is validated in high fi delity simulations.

Optimal Braking Patterns and Forces in Autonomous Safety-Critical Maneuvers

2019-05-02
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Release : 2019-05-02
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Book Synopsis Optimal Braking Patterns and Forces in Autonomous Safety-Critical Maneuvers by : Victor Fors

Download or read book Optimal Braking Patterns and Forces in Autonomous Safety-Critical Maneuvers written by Victor Fors. This book was released on 2019-05-02. Available in PDF, EPUB and Kindle. Book excerpt: The trend of more advanced driver-assistance features and the development toward autonomous vehicles enable new possibilities in the area of active safety. With more information available in the vehicle about the surrounding traffic and the road ahead, there is the possibility of improved active-safety systems that make use of this information for stability control in safety-critical maneuvers. Such a system could adaptively make a trade-off between controlling the longitudinal, lateral, and rotational dynamics of the vehicle in such a way that the risk of collision is minimized. To support this development, the main aim of this licentiate thesis is to provide new insights into the optimal behavior for autonomous vehicles in safety-critical situations. The knowledge gained have the potential to be used in future vehicle control systems, which can perform maneuvers at-the-limit of vehicle capabilities. Stability control of a vehicle in autonomous safety-critical at-the-limit maneuvers is analyzed by the use of optimal control. Since analytical solutions of the studied optimal control problems are intractable, they are discretized and solved numerically. A formulation of an optimization criterion depending on a single interpolation parameter is introduced, which results in a continuous family of optimal coordinated steering and braking patterns. This formulation provides several new insights into the relation between different braking patterns for vehicles in at-the-limit maneuvers. The braking patterns bridge the gap between optimal lane-keeping control and optimal yaw control, and have the potential to be used for future active-safety systems that can adapt the level of braking to the situation at hand. A new illustration named attainable force volumes is introduced, which effectively shows how the trajectory of a vehicle maneuver relates to the attainable forces over the duration of the maneuver. It is shown that the optimal behavior develops on the boundary surface of the attainable force volume. Applied to lane-keeping control, this indicates a set of control principles similar to those analytically obtained for friction-limited particle models in earlier research, but is shown to result in vehicle behavior close to the globally optimal solution also for more complex models and scenarios.

Trajectory Planning of an Autonomous Vehicle in Multi-Vehicle Traffic Scenarios

2021-03-25 Electronic books
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Release : 2021-03-25
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Book Rating : 939/5 ( reviews)

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Book Synopsis Trajectory Planning of an Autonomous Vehicle in Multi-Vehicle Traffic Scenarios by : Mahdi Morsali

Download or read book Trajectory Planning of an Autonomous Vehicle in Multi-Vehicle Traffic Scenarios written by Mahdi Morsali. This book was released on 2021-03-25. Available in PDF, EPUB and Kindle. Book excerpt: Tremendous industrial and academic progress and investments have been made in au-tonomous driving, but still many aspects are unknown and require further investigation,development and testing. A key part of an autonomous driving system is an efficient plan-ning algorithm with potential to reduce accidents, or even unpleasant and stressful drivingexperience. A higher degree of automated planning also makes it possible to have a betterenergy management strategy with improved performance through analysis of surroundingenvironment of autonomous vehicles and taking action in a timely manner. This thesis deals with planning of autonomous vehicles in different urban scenarios, road,and vehicle conditions. The main concerns in designing the planning algorithms, are realtime capability, safety and comfort. The planning algorithms developed in this thesis aretested in simulation traffic situations with multiple moving vehicles as obstacles. The re-search conducted in this thesis falls mainly into two parts, the first part investigates decou-pled trajectory planning algorithms with a focus on speed planning, and the second sectionexplores different coupled planning algorithms in spatiotemporal environments where pathand speed are calculated simultaneously. Additionally, a behavioral analysis is carried outto evaluate different tactical maneuvers the autonomous vehicle can have considering theinitial states of the ego and surrounding vehicles. Particularly relevant for heavy duty vehicles, the issues addressed in designing a safe speedplanner in the first part are road conditions such as banking, friction, road curvature andvehicle characteristics. The vehicle constraints on acceleration, jerk, steering, steer ratelimitations and other safety limitations such as rollover are further considerations in speedplanning algorithms. For real time purposes, a minimum working roll model is identified us-ing roll angle and lateral acceleration data collected in a heavy duty truck. In the decoupledplanners, collision avoiding is treated using a search and optimization based planner. In an autonomous vehicle, the structure of the road network is known to the vehicle throughmapping applications. Therefore, this key property can be used in planning algorithms toincrease efficiency. The second part of the thesis, is focused on handling moving obstaclesin a spatiotemporal environment and collision-free planning in complex urban structures.Spatiotemporal planning holds the benefits of exhaustive search and has advantages com-pared to decoupled planning, but the search space in spatiotemporal planning is complex.Support vector machine is used to simplify the search problem to make it more efficient.A SVM classifies the surrounding obstacles into two categories and efficiently calculate anobstacle free region for the ego vehicle. The formulation achieved by solving SVM, con-tains information about the initial point, destination, stationary and moving obstacles.These features, combined with smoothness property of the Gaussian kernel used in SVMformulation is proven to be able to solve complex planning missions in a safe way. Here, three algorithms are developed by taking advantages of SVM formulation, a greedysearch algorithm, an A* lattice based planner and a geometrical based planner. One general property used in all three algorithms is reduced search space through using SVM. In A*lattice based planner, significant improvement in calculation time, is achieved by using theinformation from SVM formulation to calculate a heuristic for planning. Using this heuristic,the planning algorithm treats a simple driving scenario and a complex urban structureequal, as the structure of the road network is included in SVM solution. Inspired byobserving significant improvements in calculation time using SVM heuristic and combiningthe collision information from SVM surfaces and smoothness property, a geometrical planneris proposed that leads to further improvements in calculation time. Realistic driving scenarios such as roundabouts, intersections and takeover maneuvers areused, to test the performance of the proposed algorithms in simulation. Different roadconditions with large banking, low friction and high curvature, and vehicles prone to safetyissues, specially rollover, are evaluated to calculate the speed profile limits. The trajectoriesachieved by the proposed algorithms are compared to profiles calculated by optimal controlsolutions.

Proceedings of Mechanical Engineering Research Day 2020

2020-12-01 Technology & Engineering
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Release : 2020-12-01
Genre : Technology & Engineering
Kind : eBook
Book Rating : 368/5 ( reviews)

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Book Synopsis Proceedings of Mechanical Engineering Research Day 2020 by : Mohd Fadzli Bin Abdollah

Download or read book Proceedings of Mechanical Engineering Research Day 2020 written by Mohd Fadzli Bin Abdollah. This book was released on 2020-12-01. Available in PDF, EPUB and Kindle. Book excerpt: This e-book is a compilation of 170 articles presented at the 7th Mechanical Engineering Research Day (MERD'20) - Kampus Teknologi UTeM (virtual), Melaka, Malaysia on 16 December 2020.

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