Patent application number | Description | Published |
20110121193 | INSPECTION OF EUV MASKS BY A DUV MASK INSPECTION TOOL - A system that includes: (a) a mask manipulator, that is arranged to: receive an opaque EUV pod that encloses a EUV mask, extract, in a highly clean environment, the EUV mask from the outer pod and the inner pod of the EUV pod, and cover an upper face of the EUV mask with protective cover that is at least partially transparent to DUV radiation; (b) a scanner, arranged scan the EUV mask, using DUV illumination while maintaining in the scanner an environment that has a cleanliness level that is below a tolerable EUV mask cleanliness level; and a transport system arranged to transport the EUV mask and the protective cover between the scanner and the mask manipulator. | 05-26-2011 |
20140007025 | METHOD AND SYSTEM FOR CREATION OF BINARY SPATIAL FILTERS | 01-02-2014 |
20150192868 | CLEANING AN OBJECT WITHIN A NON-VACUUMED ENVIRONMENT - A system that may include a mechanical stage that is arranged to move an object along a predetermined path in relation to an optical module during an illumination of the object by the optical module; a structural support element that is arranged to support at least a part of the optical module; a gas flow module that is arranged to direct clean gas towards the object through gas flow module openings that define a coverage area that is (a) bigger than the object and (b) is positioned directly above at least a majority of the object when the object is positioned anywhere along the predetermined path. | 07-09-2015 |
20150233842 | METHOD AND SYSTEM FOR USE OF BINARY SPATIAL FILTERS - Methods and systems for designing a binary spatial filter based on data indicative of a desired exposure condition to be emulated by an inspection system, and for implementing the binary spatial filter in an optical path of the inspection system, thereby enabling emulation of the desired exposure condition by interacting a light beam of the inspection system with the binary spatial filter. The present method and systems enable on-the-fly and on-demand design and implementation/generation of spatial filters for use in inspection systems. | 08-20-2015 |
Patent application number | Description | Published |
20100137568 | TRANSGENIC PLANTS CONTAINING SOLUBLE CELL WALL POLYSACCHARIDES - The present invention provides a bio-fuel, wood or other product, such as a paper, textile or yarn product. The product can contain material from a transgenic plant over-expressing a nucleic acid molecule encoding an enzyme that causes the plant cell wall to be more water soluble than the wild type. | 06-03-2010 |
20100212050 | PLANTS OVER-EXPRESSING PME - The present invention relates to compositions and methods for over-expressing pectin methylesterases (PMEs), particularly type 1 PMEs (PME1s), in plants while maintaining growth as compated to the wild type. The plants of the invention have improved properties compared to the wild type, particularly improved resistance to salinity. | 08-19-2010 |
20130227724 | TRANSGENIC PLANTS WITH IMPROVED SACCHARIFICATION YIELDS AND METHODS OF GENERATING SAME - A method of engineering a plant having reduced acetylation in a cell wall is disclosed. The method comprising expressing in the plant cell wall at least one isolated heterologous polynucleotide encoding an acetylxylan esterase (AXE) enzyme under the transcriptional control of a developmentally regulated promoter specifically active in the plant cell wall upon secondary cell wall deposit, thereby engineering the plant having reduced acetylation in the cell wall. | 08-29-2013 |
20130333073 | Compositions and Methods for Enhancing Plant Photosynthetic Activity - Methods for improving the efficiency of photosynthesis in plants exposed to suboptimal light conditions. Photosynthesis enhancement is achieved by transformation and expression of one or more exogenous chromophores in the chloroplast of plants or in the cytoplasm under the control of a transit peptide which directs it to the chloroplast or a compartment within the chloroplast. Preferred chromophores have excitation max in the green-yellow light spectrum. Chains of chromophores can be used to capture and emit light from one to the other until the emitted wave length is in the range that can be efficiently utilize by the native light harvest complex. | 12-12-2013 |
Patent application number | Description | Published |
20110234153 | Robotic Lawnmower and Charging and Control Systems Therefor - A charging and control system for a robotic lawnmower, having a circuit loop that includes several wire segments, of which one or more are boundary wire segments that may define or demarcate the boundary of an area within which the lawnmower is permitted to move; a charging voltage signal, for charging the lawnmower's internal battery, and a positioning voltage signal for assisting the lawnmower in determining its current position, are produced respectively by a power supply and a signal generator, which are both provided within the same housing; the two signals are both communicated from this housing over the same wire segments of the circuit loop; a charging station may then be electrically connected to the circuit loop by an end-user so that the charging voltage signal may in use of the system be communicated to the lawnmower when it is docked at the charging station, thus charging the internal battery of the lawnmower. | 09-29-2011 |
20120041594 | System and Method for Determining the Location of a Machine - A system is employed for defining a position (location) of a receiving element inside an area surrounded by a wire loop, along the perimeter (a perimeter wire loop), of a work area or other bounded area. In particular, the system can determine whether the receiver is inside or outside the loop, and evaluate its distance from the perimeter wire. | 02-16-2012 |
20120226381 | AUTONOMOUS ROBOT - A method for communication between a charging station and a robot, via a pair of power lines coupled between a power supply in the charging station and a battery in the robot. In operation, the power supply is sequentially switched between a first voltage level and a second voltage level in accordance with a predetermined signal pattern. The voltage level on the power lines in the robot is monitored and correlated with a specific command to be executed by the robot. | 09-06-2012 |
20130274920 | AUTONOMOUS ROBOT - A method for communication between a charging station and a robot, via a pair of power lines coupled between a power supply in the charging station and a battery in the robot. In operation, the power supply is sequentially switched between a first voltage level and a second voltage level in accordance with a predetermined signal pattern. The voltage level on the power lines in the robot is monitored and correlated with a specific command to be executed by the robot. | 10-17-2013 |
Patent application number | Description | Published |
20100305752 | Localisation System - A robotic system comprises a transmitter emitting a plurality of angularly-spaced beams of radiation in an area; and a robot moving within said area and able to detect when it is in the path of one of said beams. On moving through a measured distance across the paths of two or more of the beams, the robot can determine the relative position of the transmitter and the robot by using the distance and the angular spacing of the beams. | 12-02-2010 |
20100332067 | Robotic Vacuum Cleaner - An Autonomous robot, that is for example, suitable for operations such as vacuuming and surface cleaning includes a payload configured for vacuum cleaning, a drive system including a steering system, a navigation system, and a control system for integrating operations of the aforementioned systems. | 12-30-2010 |
20110130875 | ROBOT DOCKING STATION AND ROBOT FOR USE THEREWITH - A docking station ( | 06-02-2011 |
20140324269 | Domestic Robotic System and Robot Therefor - A domestic robotic system that includes a robot, which is programmed to move within a working area defined by a boundary and has boundary distance sensors that enable it to estimate the current distance from the boundary; the robot is programmed to move across the working area and, secondly, so that when the boundary distance sensors indicate that the robot is a distance X away from the boundary and is approaching the boundary, the robot begins performing a gradual turn; this gradual turn is such that: the robot progressively changes direction while continuing to move across said working area; and the robot transitions from approaching the boundary to receding from the boundary; the robot is also programmed to calculate a path for the gradual turn such that, during the gradual turn, the robot approaches the boundary to a predetermined closest distance before receding from the boundary. | 10-30-2014 |