Abstract: A framework of cloud service for biological growth is disclosed. The framework of cloud service for biological growth includes a client end, a service provider, an expert end, and an equipment end. The client end has a biological cultivate area, a first processing unit, a first control module, and a first transceiver module. The service provider has a first database, a second processing unit, a data integration module, a web server, a data integration module, and a second transceiver module. The expert end has a second database, a third processing unit, a second monitoring module, a biological growth simulation module, and a third transceiver module. The equipment end has a third database, a fourth processing unit, and a fourth transceiver module.

Abstract: A framework of cloud service for biological growth is disclosed. The framework of cloud service for biological growth includes a client end, a service provider, an expert end, and an equipment end. The client end has a biological cultivate area, a first processing unit, a first control module, and a first transceiver module. The service provider has a first database, a second processing unit, a data integration module, a web server, a data integration module, and a second transceiver module. The expert end has a second database, a third processing unit, a second monitoring module, a biological growth simulation module, and a third transceiver module. The equipment end has a third database, a fourth processing unit, and a fourth transceiver module.

Abstract: The present disclosure provides an omni-directional terrain crossing mechanism, including a transformable mechanism with a plurality of claw wheels, in order to be capable of fast moving on the flat ground or in uneven terrain environments. The omni-directional terrain crossing mechanism includes a first body and a second body. Each of the first body and the second body includes at least one pair of claw wheels. Moreover, the omni-directional terrain crossing mechanism is capable of transforming one pair of first claw wheels of the first body and one pair of second claw wheels of the second body into a pair of complete wheels. Consequently, as compared with the existing mobile machines, the omni-directional terrain crossing mechanism in the present disclosure is capable of moving in various challenging terrain environments.

Abstract: A biological growth monitoring and parameter extraction system includes a comparison group platform and an experimental group platform. First environmental sensing modules of the comparison group platform extracts first environmental parameters of a biological comparison area, a first control module transmits the parameters to the experimental group platform, and a first biological inspection module extracts growth conditions of organisms of the biological comparison area. A biological experiment area of the experimental group platform emulates growth environment of the biological comparison area, second environmental sensing modules extract second environmental parameters of the biological experiment area, and the first environmental parameters are used as reference inputs of the experimental group platform, so as to enable the second control module to obtain an error value by comparing the second and the first environmental parameters.

Abstract: The present disclosure provides an omni-directional terrain crossing mechanism, including a transformable mechanism with a plurality of claw wheels, in order to be capable of fast moving on the flat ground or in uneven terrain environments. The omni-directional terrain crossing mechanism includes a first body and a second body. Each of the first body and the second body includes at least one pair of claw wheels. Moreover, the omni-directional terrain crossing mechanism is capable of transforming one pair of first claw wheels of the first body and one pair of second claw wheels of the second body into a pair of complete wheels. Consequently, as compared with the existing mobile machines, the omni-directional terrain crossing mechanism in the present disclosure is capable of moving in various challenging terrain environments.

Abstract: A method for predicting power generation for a sun-tracking type photovoltaic system. A calculating device may perform the prediction method and may comprise the steps of: forming a mathematical relationship that relates the variation in sunlight incident angle of powers for sun-tracking type and fixed-type photovoltaic systems to at least one electrical characteristic of the photovoltaic system; accumulating ratios between the power production rate of the sun-tracking type photovoltaic system and the fixed-type photovoltaic system; and according to a predetermined cost estimation structure, providing an analysis for determining whether a sun-tracking type photovoltaic system should be installed.