Abstract: The present invention relates to a method for determining the DNA quality of a biological sample and, more specifically, to a method for determining the DNA quality of a biological sample by performing a quantitative polymerase chain reaction (PCR) using primers capable of amplifying a target gene, a method for preparing the primers used in the method, and a method for standardizing the amount of detected target gene mutation by using the determined DNA quality. The method of the present invention enables objective evaluation of the DNA quality of a biological sample used in gene analysis and the presentation of objective results on the expression ratio of a gene mutation, thereby providing reliable information in the fields of clinical research and companion diagnosis.

Abstract: The present invention relates to a composition, a kit, a nucleic acid chip and a method which allow the diagnosis of liver cancer by detecting methylation levels of CpG sites of any one or more genes selected from the group consisting of FAM110A, FAR1, VIM, LDHB, LIPE, INAFM1, ATL1, CELF6, MTHFD2, PAK1, NXPE3, SLC25A36 and VANGL2. The present invention enables accurate and rapid diagnosis of liver cancer, and also enables early diagnosis.

Abstract: A freight vehicle on which a drone is docked, may include: a transfer device provided in the vehicle and configured to move up and down between an internal space of the vehicle and a roof to receive freight from the drone through the roof of the vehicle or transfer freight to the drone; and a loadspace separated, as a portion of the internal space of the vehicle, from a space where the transfer device is provided and including an open portion formed on a side or a rear of the vehicle, and onto which the freight is loaded.

Abstract: A landing guide system using an energy analysis of a UAM air vehicle is disclosed. A UAM air vehicle consists of a UAM air vehicle landing guide device for guiding a landing by analyzing a movement of the UAM air vehicle in a descent and approach section of the UAM air vehicle to a vertiport, and a remote control terminal that monitors the descent and approach section of the UAM air vehicle in real time through the UAM air vehicle landing guide device. The UAM air vehicle is configured to output a warning for safe descent and access according to a predetermined standard in accordance with the guide of the above UAM air vehicle landing guide device in the descent and approach section.

Abstract: Provided are an underwater radiation monitoring system and method. The monitoring system includes a plurality of sensors configured to measure a value of underwater radiation in a measurement area in which underwater radiation is to be measured, the plurality of sensors being installed in the measurement area by being arranged in a form which is set on the basis of information about the measurement area; and an electronic device configured to identify a value of underwater radiation in the measurement area on the basis of the values of underwater radiation measured by the plurality of sensors, wherein at least one first sensor among the plurality of sensors is connected to the electronic device to collect measured values obtained from the at least one first sensor and a plurality of second sensors excluding the at least one first sensor and to transmit the collected measured values to the electronic device.

Abstract: An electronic device is provided. The electronic device includes a user interface, a location sensor configured to sense a location of the electronic device, a processor electrically connected with the user interface and the location sensor, and a memory electrically connected with the processor and configured to store a first application program and a second application program. The memory is further configured to store instructions that, when executed, enable the processor to receive first location data with a first degree of accuracy regarding the location of the electronic device from the location sensor, process at least part of the first location data to generate second location data with a second degree of accuracy lower than the first degree of accuracy regarding the location of the electronic device, provide the at least part of the first location data to execute the first application program, and provide at least part of the second location data to execute the second application program.

Abstract: An electronic device is provided. The electronic device includes a user interface, a location sensor configured to sense a location of the electronic device, a processor electrically connected with the user interface and the location sensor, and a memory electrically connected with the processor and configured to store a first application program and a second application program. The memory is further configured to store instructions that, when executed, enable the processor to receive first location data with a first degree of accuracy regarding the location of the electronic device from the location sensor, process at least part of the first location data to generate second location data with a second degree of accuracy lower than the first degree of accuracy regarding the location of the electronic device, provide the at least part of the first location data to execute the first application program, and provide at least part of the second location data to execute the second application program.

Abstract: An electronic device is provided. The electronic device includes a user interface, a location sensor configured to sense a location of the electronic device, a processor electrically connected with the user interface and the location sensor, and a memory electrically connected with the processor and configured to store a first application program and a second application program. The memory is further configured to store instructions that, when executed, enable the processor to receive first location data with a first degree of accuracy regarding the location of the electronic device from the location sensor, process at least part of the first location data to generate second location data with a second degree of accuracy lower than the first degree of accuracy regarding the location of the electronic device, provide the at least part of the first location data to execute the first application program, and provide at least part of the second location data to execute the second application program.

Abstract: An electronic device is provided. The electronic device includes a user interface, a location sensor configured to sense a location of the electronic device, a processor electrically connected with the user interface and the location sensor, and a memory electrically connected with the processor and configured to store a first application program and a second application program. The memory is further configured to store instructions that, when executed, enable the processor to receive first location data with a first degree of accuracy regarding the location of the electronic device from the location sensor, process at least part of the first location data to generate second location data with a second degree of accuracy lower than the first degree of accuracy regarding the location of the electronic device, provide the at least part of the first location data to execute the first application program, and provide at least part of the second location data to execute the second application program.

Abstract: Provided are an underwater radiation monitoring system and method. The monitoring system includes a plurality of sensors configured to measure a value of underwater radiation in a measurement area in which underwater radiation is to be measured, the plurality of sensors being installed in the measurement area by being arranged in a form which is set on the basis of information about the measurement area; and an electronic device configured to identify a value of underwater radiation in the measurement area on the basis of the values of underwater radiation measured by the plurality of sensors, wherein at least one first sensor among the plurality of sensors is connected to the electronic device to collect measured values obtained from the at least one first sensor and a plurality of second sensors excluding the at least one first sensor and to transmit the collected measured values to the electronic device.

Abstract: A method of providing Point Of Interest (POI) information in an electronic device may include receiving information on an event, analyzing a text included in the information on the event and a location at which the information on the event is received, and controlling a display to display POI information based in part on a result of the analysis. According to various embodiments of the present disclosure, the method of providing the POI information in the electronic device may be implemented by the electronic device.

Abstract: An electronic device is provided. The electronic device includes a user interface, a location sensor configured to sense a location of the electronic device, a processor electrically connected with the user interface and the location sensor, and a memory electrically connected with the processor and configured to store a first application program and a second application program. The memory is further configured to store instructions that, when executed, enable the processor to receive first location data with a first degree of accuracy regarding the location of the electronic device from the location sensor, process at least part of the first location data to generate second location data with a second degree of accuracy lower than the first degree of accuracy regarding the location of the electronic device, provide the at least part of the first location data to execute the first application program, and provide at least part of the second location data to execute the second application program.

Abstract: An electronic device is provided. The electronic device includes a memory configured to store at least one of a contact list or a call list, a communication module configured to transmit a phone number, included in at least one of the contact list or the call list, to a server and receive company information, associated with the phone number, from the server, and a control module configured to estimate a user profile using at least one of a word included in the contact list or a word included in the company information.

Abstract: A method of preparing radioisotope hybrid nanocomposite particles using a sol-gel reaction, and radioisotope hybrid nanocomposite particles prepared using the same are provided. The method includes preparing a complex precursor using a metal ion and an unshared electron pair reactive compound, growing hybrid nanocomposite particles based on the complex precursor by means of a sol-gel reaction, calcining the nanocomposite particles in the air to remove organic matters present in the nanocomposite particles, and irradiating the nanocomposite particles with neutrons to prepare radioisotope hybrid nanocomposite particles. The radioisotope nanocomposite particles prepared using the method can be used as diagnostic and therapeutic particles in the fields of oil refining, chemistry, cement, agriculture, water resources, environment, ocean, and medicine, and can also be used as a radioisotope tracer for evaluating the risk of nanomaterials.

Abstract: An electronic device is provided. The electronic device includes a memory configured to store at least one of a contact list or a call list, a communication module configured to transmit a phone number, included in at least one of the contact list or the call list, to a server and receive company information, associated with the phone number, from the server, and a control module configured to estimate a user profile using at least one of a word included in the contact list or a word included in the company information.

Abstract: A method of providing Point Of Interest (POI) information in an electronic device may include receiving information on an event, analyzing a text included in the information on the event and a location at which the information on the event is received, and controlling a display to display POI information based in part on a result of the analysis. According to various embodiments of the present disclosure, the method of providing the POI information in the electronic device may be implemented by the electronic device.

Abstract: This invention relates to a method of preparing a radioisotope nanostructure having a ligand-metal framework, and a radioisotope nanostructure prepared thereby. The method of preparing the radioisotope nanostructure of the invention has a simple preparation process and can thus be applied to mass production of a radioisotope nanostructure. Also, because this radioisotope nanostructure is nano-sized spherical particles and has no reactive group, it can be easily dispersed in a fluid, and this nanostructure is physically and chemically stable and thus can be utilized as a radioisotope tracer in the fields of refineries, chemistry, cement, agriculture, water resources, marine, etc. Furthermore, this nanostructure can be used for diagnosis and/or treatment in medical fields, and can be applied to checking whether a nanomaterial is harmful. In addition, this nanostructure is expected to be applicable in a variety of fields using radioisotopes.

Abstract: A method of preparing radioisotope hybrid nanocomposite particles using a sol-gel reaction, and radioisotope hybrid nanocomposite particles prepared using the same are provided. The method includes preparing a complex precursor using a metal ion and an unshared electron pair reactive compound, growing hybrid nanocomposite particles based on the complex precursor by means of a sol-gel reaction, calcining the nanocomposite particles in the air to remove organic matters present in the nanocomposite particles, and irradiating the nanocomposite particles with neutrons to prepare radioisotope hybrid nanocomposite particles. The radioisotope nanocomposite particles prepared using the method can be used as diagnostic and therapeutic particles in the fields of oil refining, chemistry, cement, agriculture, water resources, environment, ocean, and medicine, and can also be used as a radioisotope tracer for evaluating the risk of nanomaterials.

Abstract: This invention relates to a method of preparing a radioisotope nanostructure having a ligand-metal framework, and a radioisotope nanostructure prepared thereby. The method of preparing the radioisotope nanostructure of the invention has a simple preparation process and can thus be applied to mass production of a radioisotope nanostructure. Also, because this radioisotope nanostructure is nano-sized spherical particles and has no reactive group, it can be easily dispersed in a fluid, and this nanostructure is physically and chemically stable and thus can be utilized as a radioisotope tracer in the fields of refineries, chemistry, cement, agriculture, water resources, marine, etc. Furthermore, this nanostructure can be used for diagnosis and/or treatment in medical fields, and can be applied to checking whether a nanomaterial is harmful. In addition, this nanostructure is expected to be applicable in a variety of fields using radioisotopes.

Abstract: The invention is a horny layer remover with simple and sanitary structure to be easily made and to prevent the damage of skin and effectively remove the horny layers according to the hardness of the horny layer. The invention includes at least one blade in the shape of circle, curve or closed loop on one or both side of the body. And the blade is integrally formed with the body by means of injection molding.