Abstract: The present invention relates to a technology for analyzing and detecting/diagnosing a target nucleic acid. When the detection system according to the present invention is used, effective real-time detection or diagnosis efficiency can be obtained while problems such as noise are minimized. In particular, since, by using a house-keeping gene according to a method of use, the expression difference of the target nucleic acid can be corrected, and direct real-time target nucleic acid detection is possible, it can be effectively used for detecting various nucleic acids and diagnosing various diseases thereby.

Abstract: The present disclosure provides a reagent composition for detecting illicit drugs, the composition comprising: a diacetylene derivative compound represented by chemical formula 1; and at least one compound selected from among gabazine (SR-95531), an amine group-linked diacetylene derivative represented by chemical formula 2-1, and a gabazine-linked diacetylene derivative represented by chemical formula 2-2.

Abstract: The present invention provides a target RNA detection method based on a dCas9/gRNA complex. A target RNA detection method according to the present invention can detect target RNA with the naked eye and without separate gene isolation and amplification steps, and, in particular, can rapidly and accurately detect target RNA through excellent target specificity and rapidity, and thus can exhibit excellent effects on the detection of various pathogens and/or viruses.

Abstract: The present invention relates to a carbene compound having substituted at the terminal polyethylene glycol (PEG) having nitrogen-containing functional groups, a carbene-metal nanoparticle complex in which the carbene compound and metal nanoparticles are bounded, a preparation method thereof, and a biosensor using same.

Abstract: The present disclosure provides an automatic installation system, a device, and a method, of a high voltage battery for a vehicle. In particular, the automatic installation device of a high voltage battery for a vehicle includes a hanger part to hang a frame for the vehicle; and an automatic installation part provided under the hanger part to automatically center the high voltage battery on the frame for the vehicle and then install the high voltage battery, whereby it is possible to improve workability by replacing a manual work process with the automatic installing process of installing the high voltage battery on the frame for the vehicle and thus save costs by improving accuracy and safety and reducing labor costs thanks to the implementation of automation.

Abstract: The present disclosure provides an automatic installation system, a device, and a method, of a high voltage battery for a vehicle. In particular, the automatic installation device of a high voltage battery for a vehicle includes a hanger part to hang a frame for the vehicle; and an automatic installation part provided under the hanger part to automatically center the high voltage battery on the frame for the vehicle and then install the high voltage battery, whereby it is possible to improve workability by replacing a manual work process with the automatic installing process of installing the high voltage battery on the frame for the vehicle and thus save costs by improving accuracy and safety and reducing labor costs thanks to the implementation of automation.

Abstract: The present disclosure provides an automatic installation system, a device, and a method, of a high voltage battery for a vehicle. In particular, the automatic installation device of a high voltage battery for a vehicle includes a hanger part to hang a frame for the vehicle; and an automatic installation part provided under the hanger part to automatically center the high voltage battery on the frame for the vehicle and then install the high voltage battery, whereby it is possible to improve workability by replacing a manual work process with the automatic installing process of installing the high voltage battery on the frame for the vehicle and thus save costs by improving accuracy and safety and reducing labor costs thanks to the implementation of automation.

Abstract: Disclosed herein is a method of minimizing electric power consumption in a non-beacon network including a parent node which maintains an active state only for a specific period in each predetermined cycle, and a child node which attempts to communicate for periods only when data is generated. When data that must be transmitted to the child node exists, the child node notifies the parent node that there is data to be transmitted. The child node periodically transmits the same message to the parent node until the parent node maintains an initial active state. If the parent node is switched into an active state and receives the data transmission notification message, the parent node commands the child node to transmit data. The child node transmits the data to the parent node. Thereafter, the parent node notifies the child node that the reception of data is normally performed.

Abstract: Disclosed herein is a method of minimizing electric power consumption in a wireless sensor network. In a large-scale transmission power control process, a sender node determines whether a transmission power value for a receiver node is determined. If the transmission power value is not determined, the sender node transmits data to the receiver node at maximum power. The receiver node calculates an RSSI value, writes the RSSI value in an ACK signal, and transmits the ACK signal to the sender node. Thereafter, the sender node calculates an approximate transmission power value. In a small-scale transmission power control process, if new data is generated, the sender node transmits the data to the receiver node at newly determined transmission power. The receiver node calculates an RSSI value, writes the RSSI value in an ACK signal, and transmits the ACK signal to the sender node. The sender node adjusts a transmission power level.