A method of categorising vegetation is disclosed, the method comprising: inputting and storing in a memory information related to a ground observation; determining the identity of the vegetation of said observations corresponding to an existing memory entry; determining a characteristic for said vegetation in dependence on said ground observation; and updating said memory with said characteristic.

A method of categorising vegetation is disclosed, the method comprising: inputting and storing in a memory information related to a ground observation; determining the identity of the vegetation of said observations corresponding to an existing memory entry; determining a characteristic for said vegetation in dependence on said ground observation; and updating said memory with said characteristic.

A method for measuring an object and a smart device are provided. The method includes: detecting by a smart device a track of a target object moving along the object to be measured; calculating a parameter of the track by the smart device according to the track; and acquiring a parameter of the object to be measured by the smart device according to the parameter of the track.

A method for measuring an object and a smart device are provided. The method includes: detecting by a smart device a track of a target object moving along the object to be measured; calculating a parameter of the track by the smart device according to the track; and acquiring a parameter of the object to be measured by the smart device according to the parameter of the track.

A method of documenting a position of an underground utility which involves placing temporary markings on a ground surface designating an underground location of the underground utility. A photograph is then taken providing an overhead panoramic view of the temporary markings designating the underground location of the underground utility. The photograph includes visual landmarks, such as sidewalks, driveways, trees and hedges, thereby providing a visual reference. After excavation has taken place and the temporary markings have been removed along with the ground surface, using the photograph to reconfirm the underground location of the underground utility by using the visual reference provided by the relationship that the temporary markings depicted in the photograph bear to the visual landmarks that remain after excavation.

A method of documenting a position of an underground utility which involves placing temporary markings on a ground surface designating an underground location of the underground utility. A photograph is then taken providing an overhead panoramic view of the temporary markings designating the underground location of the underground utility. The photograph includes visual landmarks, such as sidewalks, driveways, trees and hedges, thereby providing a visual reference. After excavation has taken place and the temporary markings have been removed along with the ground surface, using the photograph to reconfirm the underground location of the underground utility by using the visual reference provided by the relationship that the temporary markings depicted in the photograph bear to the visual landmarks that remain after excavation.

The invention relates to a method for measuring thickness variations in a layer of a multilayer semiconductor structure, characterized in that it comprises: acquiring, via an image acquisition system, at least one image of the surface of the structure, the image being obtained by reflecting an almost monochromatic light flux from the surface of the structure; and processing the at least one acquired image in order to determine, from variations in the intensity of the light reflected from the surface, variations in the thickness of the layer to be measured, and in that the wavelength of the almost monochromatic light flux is chosen to correspond to a minimum of the sensitivity of the reflectivity of a layer of the structure other than the layer the thickness variations of which must be measured, the sensitivity of the reflectivity of a layer being equal to the ratio of: the difference between the reflectivities of two multilayer structures for which the layer in question has a given thickness difference; to the given thickness difference, the thicknesses of the other layers being for their part identical in the two multilayer structures. The invention also relates to a measuring system implementing the method.

A system and method for identifying available cargo space and allocating that available cargo space while in transit includes a plurality of sensors for measuring space from reference surface of a cargo container to pallets in the cargo container. Such distances are aggregated to identify unused space in real time. The unused space is used by a freight management system to identify cargo along the same route that can use the unused space.

A system and a method are disclosed including a dual laser measurement device (DLMD) coupled with a mobile computing device to measure dimensions of a building or other structure, calculate other quantities based on the measured dimensions, select building construction or finishing material, order the material, and save the list of the measured dimensions and ordered materials in a data storage device. All steps of this process from measurement to ordering material may be performed using a DLMD app running on the mobile computing device.

An inkjet printing system with a droplet measurement apparatus is described herein. The droplet measurement apparatus has a light source with a collimating optical system, an imaging device disposed along an optical path of the collimating optical system, and a droplet illumination zone in the optical path of the collimating optical system, the droplet illumination zone having a varying droplet illumination location, wherein the light source, the imaging device, or both are adjustable to place a focal plane of the imaging device at the droplet illumination location. The droplet measurement apparatus is structured to accommodate at least a portion of a dispenser of the printing system within the droplet illumination zone.