Abstract: A medical device includes a treatment module configured to apply a treatment to a patient. The medical device includes an interface configured to operatively connect to a removable storage device storing authorization data that identifies a level of treatment authorization. The medical device includes a processing device configured to perform operations in response to receiving user input indicating a treatment should be initiated. The operations include determining whether the removable storage device is valid for use with the medical device. If the removable storage device is determined to be valid, the authorization data is accessed. The processing device determines whether the treatment is authorized based on the accessed authorization data. If the treatment is determined to be authorized, the treatment module is controlled to apply the treatment. If the treatment is determined to not be authorized, the treatment module is controlled such that the treatment is not applied.

Abstract: This application relates to a vaporization device and a method thereof. The vaporization device includes a cartridge and a body. The cartridge includes a housing, a heating component and a heating component base. The heating component base comprises a storage tank, a first supporting member adjacent to the storage tank, a second supporting member adjacent to the storage tank, and the storage tank has a first depth. The first supporting member comprises a plurality of openings, the second supporting member comprises a ramp structure, the distance between the ramp structure and a bottom portion of the storage tank is greater than the first depth, and the distance between the plurality of openings and the bottom portion of the storage tank is greater than the first depth. The body has an accommodation portion. The accommodation portion covers a portion of the cartridge when the cartridge is removably engaged with the body.

Abstract: The present disclosure discloses a non-invasive wireless glucose level monitoring device. The device is fitted into a contact lens and can analyze glucose levels in tear fluid. The results of the analysis can be continuously transmitted to a nearby receiver and uploaded to a computer, mobile device or server.

Abstract: Disclosure is an aerosol generating article having a low temperature burning heat source, including a low temperature burning smoking set and a matching cigarette, the smoking set includes a heat insulation sleeve, an annular heat conductive barrel, a cover and a heat source cigarette lighter; the barrel is provided in an annular mounting groove at a left section of an inner wall of the sleeve, the cover is provided at a left end of the sleeve, a cavity of the barrel is filled with the heat source in a sealed manner; a plurality of electric heating columns are provided at a right end of the lighter; the cover is provided with a plurality of insertion holes, and after the plurality of electric heating columns are inserted into the plurality of insertion holes, the lighter gets in contact with the barrel to ignite the heat source in the barrel.

Abstract: This application relates to an vaporization device and a method thereof. The provided vaporization device includes a cartridge and a body. The cartridge has a housing, a heating component and a heating component base. The housing and the heating component base define an air inlet channel and an air outlet channel, and the heating component and the heating component base define a cavity. The air inlet channel is in communication with the cavity through a first communication portion, and the first communication portion is located between the heating component and the heating component base. The air outlet channel is in communication with the cavity through a second communication portion, and the second communication portion is located between the heating component and the heating component base. The body has an accommodation portion. When the cartridge and the body are removably combined, the accommodation portion covers a portion of the cartridge.

Abstract: A method for establishing a tunnel between local gateways, and a gateway are disclosed. The method includes: determining, by an RGW, that UE is handed over from an S-LGW to a T-LGW, where before the UE is handed over, a packet of a local service of the UE is forwarded by the S-LGW between the UE and an application server of the local service, and the local service includes a same service that is deployed on the S-LGW and that is accessed by the UE before and after the UE is handed over; sending, by the RGW to the S-LGW and the T-LGW respectively, a first request message and a second request message to request to establish a tunnel, where the tunnel is used to transmit the packet of the local service between the S-LGW and the T-LGW; and establishing the tunnel between the S-LGW and the T-LGW.

Abstract: This application relates to a vaporization device and a method thereof. The provided vaporization device includes a cartridge and a body. The cartridge includes a housing, a heating component and a heating component base. The housing and the heating component base define an air inlet channel, the air inlet channel comprises a first portion and a second portion, and the diameter of the first portion is greater than the diameter of the second portion. The housing has a bottom portion, the housing has a first sectional profile at a first distance from the bottom portion, and the housing has a second sectional profile at a second distance from the bottom portion. The body has an accommodation portion. The accommodation portion covers at least a portion of the cartridge when the cartridge is removably engaged with the body.

Abstract: This application relates to a vaporization device and a method thereof. The method includes detecting a first value associated with a first airflow by a sensor. The method includes determining by a controller whether the first value satisfies a first condition. The method includes determining by the controller whether a first timer exceeds a first threshold. The method further includes controlling, by the controller when the first value satisfies the first condition and the first timer exceeds the first threshold, a power supply component to provide a first power to a heating component in a first time period and provide a second power to the heating component in a second time period.

Abstract: An airbag and an airbag assembly including a gas generator and an airbag. The airbag (10) forms a first end (11) and a second end (12), the first end (11) being a free end of the airbag, and the second end (12) being used for fixing the airbag to a mounting position. The airbag (10) forms a folding portion (13) and a rolling portion (14) in the collapsed stat. The folding portion (13) is formed by folding one part of the airbag in an “N” shape; the rolling portion (14) surrounds a periphery of the folding portion (13), so that the folding portion (13) is surrounded by an inner side of the rolling portion (14).

Abstract: The disclosure relates to a holding device and an electronic device assembly and an electronic apparatus having the same. The holding device is able to hold an insertion device. At least one holding structure of the holding device includes a first holding portion and a second holding portion, and the second holding portion is located closer to the insertion opening than the first holding portion. The first holding portion is configured to hold the insertion device at an installed position, and the second holding portion is configured to hold the insertion device at a non-installed position.

Abstract: A macrophage capable of targeting tumor cells and a preparation method thereof are provided. The macrophage comprises a chimeric antigen receptor. The chimeric antigen receptor is expressed on the macrophage which infiltrates more efficiently into tumor than T cells.

Abstract: The disclosure provides a method of operating a communication network. The method includes receiving input data related to a state of the communication network and determining an implementation policy for the communication network based on the input data. The implementation policy is a set of features for forming one or more communication links in the communication network over a time interval. The one or more communication links includes at least one communication link between a terrestrial terminal and a high-altitude platform terminal. Determining the implementation policy is based at least in part on utility values of previous policies. The utility values of previous policies are derived using simulation and/or real-world implementation of the previous policies. The communication network is then operated to implement the implementation policy in the time interval.

Abstract: The present invention relates to a transmission electron microscope (TEM) micro-grid and a method for preparing the TEM micro-grid. The TEM micro-grid comprises a porous silicon nitride substrate and a graphene layer located on a surface of the porous silicon nitride substrate. The porous silicon nitride substrate comprises a plurality of through holes. The graphene layer covers the plurality of through holes. The method for preparing the TEM micro-grid provided in the present disclosure uses a carbon nanotube film structure to transfer a graphene layer to a surface of a porous silicon nitride substrate.

Abstract: Disclosed is a system for detecting one or more target analytes which includes a resistor structure comprised of a substrate, a graphene-based nanocomposite material located on a surface of the substrate with the graphene-based nanocomposite material exhibiting one or more magnetoresistance properties. A surface of the nanocomposite material includes molecular sensing elements bound thereto which exhibit an affinity for binding with the target analytes. Electrodes are connected to the resistor structure connectable to a power source and a device for measuring a resistance across the resistor structure for sensing a giant magnetoresistance (GMR) value of the resistor structure. Included are magnetic colloidal nanoparticles exhibiting preselected magnetic properties with an outer surface of the magnetic colloidal nanoparticles being modified to allow interaction with the surface of the resistor structure resulting in a change in the GMR value of the resistor structure.

Abstract: The present disclosure provides a single-side modified ?-Anderson-type heteropolymolybdate organic derivative having an anionic moiety with a general formula represented by: ?-{[RC(CH2O)3]M(OH)3Mo6O18}3?; ? represents a non-planar folded structure; R=substituted or unsubstituted phenyl, CnH2nX (n is an integer from 0 to 22; X?H, OH, NH(CH2)3SO3H, NHCH2COOH, NH2, or NO2); M=Cr3+. The single-side modified ?-Anderson-type heteropolymolybdate organic derivative can be prepared under hydrothermal conditions.

Abstract: A method for distinguishing semiconducting nanowires from metallic nanowires is related and including: applying nanowires on a substrate; making a metal electrode on the substrate and electrically connected to the nanowires; taking a SEM image of the nanowires and the metal electrode, wherein the SEM image comprises light segments, and each light segment corresponds to one nanowire; and comparing length of each light segment with length of corresponding one nanowire, when the first length is same as the second length, the corresponding one nanowires is a metallic nanowire; when the first length is shorter than the second length, the corresponding one nanowire is a semiconducting nanowire.

Abstract: A fully sealed liquid crystal projection optical unit device with a high-efficiency heat dissipation function includes: a hermetically sealed housing having an accommodation space therein; a light source, a first heat pipe radiator module, a first heat dissipation fan and a second heat dissipation fan, which are disposed outside the hermetically sealed housing; a first optical module, a second optical module and a liquid crystal screen, which are installed in the hermetically sealed housing; and a second heat pipe radiator module and a driving fan, wherein the first heat dissipation fin is fixedly installed outside the hermetically sealed housing and located close to the second heat dissipation fan, the second heat dissipation fan is in communication with the first heat dissipation fin through an air duct, and the first heat dissipation fin is in communication with the second heat dissipation fin directly or through the heat pipe.

Abstract: A semiconductor element includes a semiconductor structure, a carbon nanotube and a conductive film. The semiconductor structure includes a P-type semiconductor layer and an N-type semiconductor layer and defines a first surface and a second surface. A thickness of the semiconductor structure ranges from 1 nanometer to 100 nanometers. The carbon nanotube is located on the first surface of the semiconductor. The conductive film is located on the second surface of the semiconductor. The conductive film is formed on the second surface by a depositing method or a coating method. The carbon nanotube, the semiconductor structure and the conductive film are stacked with each other to form a multi-layered stereoscopic structure.

Abstract: The present disclosure relates to a FMCW Light Detection and Ranging system, a wave train of carrier frequency is modulated in narrow-band sequence, an delay interferometer with in-phase and quadrature outputs extracts the phase of this frequency modulation, and a coherent receiver with in-phase and quadrature outputs detects the phase of reflected light from a remote object, the ratio between two phases determines the distance of the remote object.

Abstract: Provided are methods of producing hollow metal nanospheres (HMNs) having a pre-selected surface rugosity. The methods include combining in a galvanic exchange reaction at a selected pH: a solution comprising cobalt-based nanoparticle (CoxBy NP) scaffolds; and a solution comprising a metal, to produce CoxBy NP core/metal shell structures. The methods further include oxidizing the CoxBy NP cores of the CoxBy NP core/metal shell structures to produce HMNs having the pre-selected surface rugosity, where the pH of the galvanic exchange reaction is selected to produce the pre-selected surface rugosity of the HMNs. Also provided are HMNs produced according to the methods, as well as methods of using the HMNs. Compositions and kits that find use, e.g., in practicing the methods of the present disclosure, are also provided.