FFEI LIMITED Patent applications |
Patent application number | Title | Published |
20160123850 | METHOD OF FORMING A STAIN ASSESSMENT TARGET - A method is provided of forming a stain assessment target for a biological material staining system. At least one region of a substrate is provided upon a support such as a microscope slide. The substrate is formed from an optically transmissive material which is an analogue of biological tissue. A biological tissue sample for inspection is also provided upon the support. The support, including the at least one region, together with the biological tissue sample and then stained by applying at least one biological tissue stain under similar staining conditions. | 05-05-2016 |
20160004900 | METHOD FOR FORMING AN IMAGE REFERENCE DEVICE - A method is provided of forming an imaging reference device for a biological material imaging system. A first region is provided in a substrate formed from an optically transmissive material which is an analogue of biological tissue. This first region is stained using a first biological tissue stain. A second region is provided in second substrate which is optically transmissive and an analogue of biological tissue. The second region is stained with a second biological tissue stain. The first and second regions are overlapped as a pair, such that light incident upon the pair is modulated by the respective first and second biological tissue stains of the respective regions. Multiple regions of the first and second type may be provided, stained to different degrees. | 01-07-2016 |
20140168640 | METHOD AND APPARATUS FOR IMAGE SCANNING - A method of estimating an in-focus level of a target in an image scanning apparatus is provided, wherein the image scanning apparatus comprises a first line scan detector configured to obtain one or more image scan lines of the target and a second line scan detector configured to obtain one or more focus scan lines of the target. The method comprises obtaining at least one image scan line of the target using the first line scan detector, each at least one image scan line being obtained at a respective focus level; obtaining at least one focus scan line of the target using the second line scan detector, each at least one focus scan line being obtained at a respective focus level; calculating at least one focus parameter using at least one focus scan line; and estimating a nominal in-focus level of the target using the calculated focus parameter(s). | 06-19-2014 |
20140071438 | METHOD AND APPARATUS FOR IMAGE SCANNING - A method of estimating an in-focus level of a target in an image scanning apparatus, wherein the image scanning apparatus comprises a first line scan detector configured to obtain one or more image scan lines of the target and a second line scan detector configured to obtain one or more focus scan lines of the target, the second line scan detector comprising at least one focus shifting element such that each focus scan line is obtained at respective first and second focus levels, wherein the first focus level is different from the second focus level, the method comprising: obtaining at least one focus scan line of the target using the second line scan detector; obtaining at least one image scan line of the target using the first line scan detector, the image scan line being obtained at a respective third focus level; calculating at least one focus parameter using the at least one focus scan line; and estimating a nominal in-focus level of the target using the at least one focus parameter. | 03-13-2014 |
20120282682 | MICRO-CHANNEL STRUCTURE METHOD AND APPARATUS - A method is provided of forming a micro-channel structure for use in a biosensing device. A master structure is provided having a first configuration of micro-channels with respective first fluid flow characteristics. One or more regions of material are deposited onto the master structure using a fluidjet process so as to modify the first configuration into a second configuration having respective second fluid flow characteristics, different from the first. Functional biosensing devices formed using the method are also described. | 11-08-2012 |
20120044296 | INKJET HEAD SUPPORT ASSEMBLY - An inkjet head support assembly comprises a plurality of spaced apart carrier members mounted for relative movement along an elongate path, each carrier member including laterally offset first and second coupling positions. In use alternate inkjet heads are coupled at each of their ends between first coupling positions or between second coupling positions respectively of successive pairs of carrier members. At least one coupling position of each carrier member includes an adjustment mechanism to enable parts of inkjet heads coupled to the respective coupling positions of the same carrier member to be relatively aligned in the elongate direction. | 02-23-2012 |
20090284853 | LENS POSITIONING ASSEMBLY - A microscope objective lens positioning assembly comprises a lens mounting member to which a microscope objective lens defining an optical axis is mounted; a support member; and a pair of leaf springs. Each leaf spring has first and second ends, the first ends of the leaf springs being secured to upper and lower aligned locations respectively on the support member, and the second ends of the leaf springs being secured to corresponding upper and lower locations respectively on the lens mounting member whereby the two leaf springs, the optical axis of the objective lens, and a line between the upper and lower aligned locations on the support member define a parallelogram, the leaf springs flexing in use in response to movement of the lens mounting member. | 11-19-2009 |
20090284590 | METHOD AND SYSTEM FOR CONTROLLING THE POSITION OF A MICROSCOPE LENS - A method for controlling the position of a microscope lens comprising receiving a reference signal corresponding to a reference position of the microscope lens; receiving a measurement signal corresponding to an actual position of the microscope lens; receiving a deviation signal characteristic of a predetermined positional deviation from the reference position; and using the measurement signal, the deviation signal and the reference signal to generate a positional control signal for use in setting the position of the microscope lens. | 11-19-2009 |
20090197513 | PROCESSING A FLEXOGRAPHIC PRINTING PLATE - A method for processing a flexographic printing plate on which patterned flexographic material that is uncured or partially cured has been provided, the method comprising mechanically shaping the upper surface of the flexographic material and fully curing the shaped material. | 08-06-2009 |
20090197013 | PRODUCING A FLEXOGRAPHIC PRINTING PLATE - A method of producing a flexographic printing plate, comprises: | 08-06-2009 |
20090046118 | MULTILEVEL SCREENING - A method of producing a printed output on a substrate is provided using a drop emitting device which is adapted to emit a plurality of ink quantities in response to a control signal. The method comprises the steps of receiving image data corresponding to a pixel of an image to be printed, the received image data comprising a tone value; generating a threshold value for use in a screening operation based on the location of the pixel within the image to be printed; mapping the received tone value to a mapped tone value using a first tone mapping, the mapped tone value being generated based on the received tone value; performing the screening operation by comparing the mapped tone value with the threshold value; mapping the received tone value to a control signal value using a first control mapping if the output of the comparison performed in the previous step indicates a first relationship, the control signal value being generated based on the received tone value; and repeating the previous three steps if the output of the comparison performed in the previous step indicates a second relationship, wherein the first mapping step comprises using an alternate tone mapping and the second mapping step comprises using an alternate control mapping. | 02-19-2009 |