A smart medication identifying system is disclosed herein. It comprises a processing device including a first processing module, a scanning module electrically connected to the first processing module and a first reminding module electrically connected to the first processing module; a cloud storage device electrically connected to the processing device and having a storage module, a login module electrically connected to the storage module, and a medication information database electrically connected to the storage module; and a medication identifying device electrically connected to the processing device and the cloud storage device and having a second processing module, an image identifying module electrically connected to the second processing module and a second reminding module electrically connected to the second processing module.

A system and method for recognizing a medication are provided. The method includes the steps of presenting a medication to a medication identification apparatus, the medication identification apparatus adapted to visually image the presented medication and visually imaging the presented medication. A predetermined transformation may be applied to the visually imaged presented medication, the predetermined transformation adjusting one or more parameters of the visually imaged presented medication along one or more dimensions. Finally, the transformed visually imaged medication is compared to a medication library to determine a closest match therebetween.

The invention comprises using a photodetector that it sensitive in the MWIR band, performing image differencing on two successive images at a time, and defining thresholds for said differences in order to extract only those exceeding the threshold used.

Disclosed is a novel system, and method for matching a spent firearm cartridge. The method starts with applying a directed self-assembly (DSA) process to produce a nano-scale pattern on a tip of a firing pin for a firearm. The DSA process including: a) disposing a neutral substrate on the firing pin; b) lithographically placing two or more base polymer chains on the neutral substrate, at least two of the two or more base polymer chains being different lengths, so that the two or more base polymer chains align end-to-end in an alternating structure, and c) extracting at least one of the two or more base polymer chains leaving at least one of the base polymer chains remaining thereby forming a randomly oriented pattern. Next, the randomly oriented pattern is used as blocking mask to form a randomly oriented metallization pattern.

An insect capturing device having an imaging function for harmful insect information management, according to the present invention, comprises: a collection unit having a collection net so as to collect harmful insects, and having a passage tube, provided on one side of the collection net, through which the collected harmful insects pass; a support unit provided on the other side of the collection unit so as to support the collection unit; a capturing analyzer having an outer filter connected to the collection unit through the passage tube so as to separate moisture from air introduced with the harmful insects, an inner filter connected to the outer filter and maintaining constant temperature and humidity conditions, a capturing tube unit connected to the inner filter and having a count sensor for sensing the harmful insects having passed there through and counting the number of harmful insects, and a gathering unit connected to the capturing tube unit and having a gathering net for enabling the harmful insects suctioned in and moved through the capturing tube unit to be finally filtered; an imaging unit provided at a position aimed at the gathering unit in the capturing tube unit, and photographing harmful insects being moved to the upper part of the gathering net; and a capture unit provided between the imaging unit and the gathering net such that the imaging unit obtains images of the harmful insects suctioned in and moved through the capturing tube unit, and enabling the harmful insects to be temporarily filtered before being filtered in the gathering net. Therefore, it is possible to provide an insect capturing device having an imaging function for harmful insect information management, the device simply classifying and analyzing harmful insects according to the occurrence frequency and types of the harmful insects by easily obtaining, in real time, without an expensive high speed camera, images of harmful insects collected in the insect capturing device for collecting harmful insects such as flies or mosquitoes.

An organism evaluation system for analyzing organisms within a fluid flow, comprising one or more of a stimulation section comprising a means for inducing a motive response in a living organism within the fluid flow passing through the stimulation section and a shepherding section comprising a means for temporarily separating such an organism from and then returning it to the fluid flow, a flow normalizing section in fluid communication with the stimulation section and/or shepherding section, and a viewing section in fluid communication with the flow normalizing section, the viewing section comprising a body having formed therein a body cavity defining a viewing port, the viewing section further comprising an optical system mounted relative to the body for viewing the fluid flow within the viewing port through a cavity first opening, whereby image data relating to the fluid flow and organisms therein is acquired via the optical system for analysis.

Arrangements involving portable devices (e.g., smartphones and tablet computers) are disclosed. One arrangement enables a content creator to select software with which that creator's content should be rendered—assuring continuity between artistic intention and delivery. Another utilizes a device camera to identify nearby subjects, and take actions based thereon. Others rely on near field chip (RFID) identification of objects, or on identification of audio streams (e.g., music, voice). Some technologies concern improvements to the user interfaces associated with such devices. For example, some arrangements enable discovery of both audio and visual content, without any user requirement to switch modes. Other technologies involve use of these devices in connection with shopping, text entry, and vision-based discovery. Still other improvements are architectural in nature, e.g., relating to evidence-based state machines, and blackboard systems. Yet other technologies concern computational photography. A great variety of other features and arrangements are also detailed.

A feature image generation apparatus includes circuitry. The circuitry generates, on the basis of a processing target image in which an object appears, a first image showing the object, and generates, as a feature image showing a feature of the object, at least a part of a rotational composite image obtained by composition of a plurality of rotated images obtained by rotating the first image.

A dosage hybrid inspection system includes a plurality of cameras selectively installed in sides of a rotating plate and a counter-rotating plate configured to vacuum suction a dosage along a circumference thereof. The cameras include a first camera unit including one or more camera arranged in the side of the rotating plate to photograph a top surface of a tablet when a bottom surface of the tablet is suctioned to the rotating plate, a second camera unit including a plurality of cameras arranged in the side of the rotating plate to photograph a portion of a circumferential surface of the tablet when the bottom surface of the tablet is suctioned to the rotating plate, a third camera unit including one or more camera arranged in the side of the counter-rotating plate to photograph the bottom surface of the tablet when the top surface of the tablet is suctioned to the counter-rotating plate, a fourth camera unit including a plurality of cameras arranged in the side of the counter-rotating plate to photograph another portion of the circumferential surface of the tablet when the top surface of the tablet is suctioned to the counter-rotating plate, wherein one or more camera of the second and fourth camera units is configured to photograph both edges of a capsule when a side surface of the capsule is suctioned to the rotating plate, and one or more camera of the first and third camera units is configured to photograph a circumferential surface of the capsule, and fifth and sixth camera units including a plurality of cameras further provided in the sides of the rotating plate and the counter-rotating plate to photograph another portion of the circumferential surface of the capsule which has not been photographed by the first and third camera units.

Methods and systems for automatically establishing an enhanced electronic health record (EHR) for a patient include an automatic data collection facility that collects data of a medically related event in proximity to a patient upon occurrence of the event. The collected data may include medication administration data such as medication, time of administration, administration of a dosage of medication, reaction data, and the like. The collected data is communicated to a real-time data integration facility that automatically integrates the data with a patient's electronic health record to establish an enhanced electronic health record.