A processing method includes mapping a first physical object into a first virtual object in a virtual space; generating a collision signal in response to the first virtual object overlap a second virtual object in the virtual space; and providing the collision signal to the first physical object, so that the first physical object operates according to the collision signal.

Systems and methods for a unitary physics engine and image smoothing is provided. In this method, a game and a plug-in physics engine are initialized on multiple gaming systems. Time advancement messages are received by a controller within the physics engine from a reflector, causing the physics engine to compute events in a queue up to the time of the timing message, according to the same set of physics rules. This causes a deterministic computation of all object positions within the game that is identical across all gaming systems. In between the deterministic calculations, the local gaming system may compute speculative object positions, based upon the last deterministic position and the accelerations, velocities and object attributes at that moment. These speculative calculations may be performed at least as often as the frame rate of the display (typically 30, 60 or 120 frames per second). Once the next deterministic calculations are refreshed, the true position of the objects may be compared against the current speculative position, and if needed, a reconciliation may be performed.

An apparatus for executing a computer game are provided. The apparatus includes an output unit configured to transmit a first image generated based on a form of a first user participating in the computer game and a second image generated based on a form of a second user participating in the computer game to a display apparatus, and a control unit configured to predict a possibility of a collision between the first user and the second user, and to control transmitting warning information indicating the possibility of the collision to the display apparatus via the output unit, according to a result of the predicting.

A virtual resource processing method and apparatus in a game scene, a terminal, and a storage medium are disclosed. The method includes: in response to a disassembly instruction, detecting whether the virtual resource is attacked by a virtual character; when detecting that the virtual resource is attacked by the virtual character, determining the virtual resource attacked by the virtual character as a first virtual resource to be disassembled; and when the first virtual resource to be disassembled satisfies a preset condition removing, the first virtual resource to be disassembled from the game scene. A processing apparatus, a mobile terminal and a computer storage medium are also disclosed. The present disclosure provides a novel user interaction mode. A user may conveniently achieve attacking and removing of a virtual resource in a game scene. The number of interactions between the user and an interaction interface is reduced. The user experience is improved.

Providing a location-based online game for a plurality of mobile devices, including: assigning a force field around a player corresponding to each mobile device of the plurality of mobile devices, wherein a radius of the force field is proportional to a score or experience point of the player in the online game; determining a location of said each mobile device; calculating colliding forces among the plurality of mobile devices and virtual environment created in the online game; providing a forum to enable a battle among the plurality of mobile devices and the virtual environment which are calculated as being in the colliding forces and sampling metadata including water, highway, road, grass, forest, business area and residential area to generate the online game.

Trajectory-based games of chance are described that may be implemented on a video gaming machine. In a trajectory-based game of chance, a trajectory of a game object may be generated in a 3-D gaming environment. A wager may be made on an aspect of the game object's trajectory in the gaming environment such as a termination location for the trajectory of the game object. The aspect of the game object's trajectory may occur according to a known probability. Hence, an award for the trajectory-based game of chance may be proportional to the probability of the aspect of the game object's trajectory occurring.

Embodiments of the present application provide systems and methods for world prediction within a game application environment. The systems and methods can include a world prediction module for predicting collisions between virtual objects in the game application environment. The world prediction module can use game state data to simulate the virtual objects into future instances. The world prediction module can parse the future instances to find collisions in a farfield representation of the virtual objects and collisions in a nearfield representation of the virtual objects. The world prediction module can use collision information to update a game engine of the game application.

A game apparatus displays game space on a display means, and the game space includes a first area and a second area which interrupts continuity of a movement of an object in the first area. A user sets a moving route within the game space by means of a touch pen. The collision, that is, the object moves along the route. Assuming that the object moves to a next point position on the route, when the next point position where the object will enter the second area is set, the computer corrects the next point position to a target position within the first area, and then moves the object thereto.

An information processing device obtains information regarding the position of each fingertip of a user in a real space, and determines contact between a virtual object set within a virtual space and a finger of the user. The information processing device sets the virtual object in a partly deformed state such that a part of the virtual object, the part corresponding to the position of the finger determined to be in contact with the object among the fingers of the user, is located more to a far side from a user side than the finger, and displays the virtual object having the shape set thereto as an image in the virtual space on a display device.

In a data processing method, a first direction parameter and a rotation angular velocity of a target object in a first game frame, and an inter-frame interval duration between the first game frame and a second game frame are obtained. The second game frame is rendered after the first game frame. A target rotation angle of the target object is obtained based on the rotation angular velocity and the inter-frame interval duration. A second direction parameter of the target object in the second game frame is determined based on the target rotation angle and the first direction parameter. Apparatus and non-transitory computer-readable storage medium counterpart embodiments are also contemplated.