Intelligent methods, functions and apparatus for load handling and transportation mobile robots

1. A set of methods, functions and apparatus for bulk and other general material handling such as loading, unloading, and transportation by mobile robots in the form of autonomous vehicles and machines, for industrial applications in limited areas and fields, outdoor as well as indoor or underground, comprising:

• a method with one or more loading zones as the only kind of areas from which loading and its constituent material volume penetration by the vehicle'"'"'s bucket is allowed, one or more unloading zones as the only kind of areas to which unloading and its constituent bucket emptying is allowed, and one or more obstacle free zones which, together with loading and unloading zones, are the only kind of areas where autonomous navigation and vehicle implement movements are allowed;
  
  a method with a reference ground surface supporting material volumes and other general handling objects, where such a surface, specifically in the loading, unloading and obstacle free zones is accurately defined, in a fixed to ground coordinate system, by x, y and z-coordinates for ordered surface points, and used as reference for comparisons with current measurements of the surface of stored material volumes and other general handling objects thereon, and where this data is employed for accurate vehicle path and vehicle and implement motion parameter optimization at loading and unloading operations;
  
  a position determination system for accurately determining, in real time, outdoor as well as indoor or underground, the three-dimensional position x, y, and z and the three attitude angles heading, pitch and roll, of a fixed to vehicle coordinate system, in a fixed to ground coordinate system, where this position determination system can be a laser-optic system where the position is determined by means of azimuth and elevation angle measurements, with an on-board vehicle located rotating laser-optic sensor, in the fixed to vehicle coordinate system, to a number of reflectors with known coordinates in the fixed to ground coordinate system;
  
  a terrain surface measuring system for determining, in real time, the three-dimensional position of points on the terrain surface in a fixed to ground coordinate system, where the position of each such point can be determined by means of azimuth angle and range measurements in a fixed to vehicle coordinate system by at least one on-board vehicle located scanning laser rangefinder, and coordinate transformation of such measurements employing the six degrees of freedom position data in fixed to ground coordinates from the position determination system;
  
  a dynamic terrain model for collecting, processing and updating terrain surface data employed for optimizing vehicle path and vehicle and bucket movement parameters in loading and unloading operations by measuring the location and shape of material volumes and obstacles, where this model has at least three essential layers;
  
       1) developing model based on measurements from the current path with the laser-optic terrain surface measuring system,
  
       2) best estimate of reference ground surface based on geodetic data or earlier runs with the system over the actual terrain and
  
       3) the best estimate of the terrain surface of the total worksite attainable by the system, where this dynamic terrain model is analysed for determining attack, and bucket emptying points, and the position of the vehicle at loading and unloading, respectively, and also a loading height profile of the material volume along the loading path in a loading operation;
  
  a mission computer provided with software for optimizing dynamic vehicle paths and the movements of vehicle and load handling implement during loading and unloading operations based on attack, bucket emptying, loading and unloading points and loading height profile data from the dynamic terrain model, and with mission instructions comprising data for defining obstacle free, loading and unloading zones, parameters for static and dynamic transportation paths, reconnaissance paths, loading paths and unloading movements and mission programs for selecting and linking paths and for generating detailed vehicle and implement control data lists for low level vehicle control based on the current vehicle path and vehicle and implement movement parameters;
  
  a vehicle control computer for low level vehicle control based on a vehicle and implement control data list from the mission computer, and provided with interfaces to the sensors and actuators as needed for controlling the vehicle and its implements.