| NATIONAL UNIVERSITY OF IRELAND MAYNOOTH Patent applications |
| Patent application number | Title | Published |
|---|
| 20100251438 | MICROSCOPY CONTROL SYSTEM AND METHOD - A method for controlling laser scanning microscopy of a probe comprising at least one cell is disclosed. The method comprises the steps of acquiring at least one initial image of the probe and identifying at least one cell within an initial probe image. Using a pre-defined grammar, a first set of scanning mode parameters for monitoring the cell(s); a first set of trigger parameters including at least one physiological parameter defining an event in the cell(s); and a second set of scanning mode parameters for monitoring at least one cell of the probe after an occurrence of the event is defined. A successive set of probe images acquired according to the first set of scanning mode parameters is provided and processed to determine if the event has occurred. Responsive to the event occurring, microscope modality is changed to the second set of scanning mode parameters. | 09-30-2010 |
| 20100116655 | CHEMICAL MESSENGER SENSOR - A sensor for the detection of chemical messengers is described herein. In particular a sensor for the detection of catecholamines, for example dopamine, epinephrine or norepinephrine, is reported. Catecholamines play pivotal roles as neurotransmitters and hormones in the human body. An electrode for detecting a catecholamine comprising a conducting or semi-conducting substrate, and a polymer comprising polyethylenedioxythiophene on said substrate is disclosed. The polymer is doped with a cyclodextrin macrocycle. Suitable cyclodextrin macrocycles include anionic cyclodextrin macrocycles, for example sulfonated β-cyclodextrins (CDs). Also, disclosed in sensor capable of selectively detecting a catecholamine in the presence of ascorbic acid (ascorbate). | 05-13-2010 |
| 20090267824 | ANTENNA ARRAY CALIBRATION - An antenna array comprises a surface comprising a replicated pattern of conductive tracks, the tracks defining a plurality of ports. A plurality of antennae are located at ports distributed about the surface. A plurality of radiative transceivers are electrically connected to a respective antenna. A plurality of reference transceivers are electrically connected to a non-radiative impedance located at a respective port so that each reference transceiver is surrounded by a group of antennae and electrically coupled to the group of antennae by the tracks. At least one antenna from at least one group of antennae belongs to one other group of antennae. Calibration circuitry includes a controller associated with each reference transceiver, each controller being arranged to transmit a calibration signal through an associated reference transceiver and to receive and store a received calibration signal from a selected transceiver for the group of antennae coupled to the reference transceiver. Each controller is further arranged to receive and store a calibration signal from the selected transceiver for the group of antennae coupled to the reference transceiver. The calibration circuitry further includes for each other transceiver for the group of antenna, circuitry for adjusting the phase and amplitude of signals transmitted and received by the radiative transceivers relative to the stored calibration signals for the selected radiative transceiver. | 10-29-2009 |
| 20090252053 | METHOD AND APPARATUS FOR ESTIMATING LINK QUALITY - A driver for an IEEE 802.11 wireless network node determines a metric for link quality between the node and a remote node. The nodes communicate using a handshake protocol in which the first node expects to receive an acknowledgement (ACK) of receipt of a data packet from the remote node. The driver provides a measure for: collision induced losses (pc) between the first and remote nodes; a slot being erroneously detected as busy when a successful transmission could have been made (pexp) between the first and remote nodes; and a probability of successful reception of a packet when a collision occurs (pplc) between the first and remote nodes. The measure is based on a number (A) of acknowledgements received from the remote node vis-à-vis a number (T) of packets transmitted to the remote node. The driver can adjust one of carrier sensitivity or node transmission power based on the measure. | 10-08-2009 |
| 20090250342 | MONITORING TARGET ENDOGENOUS SPECIES - An electrode comprising a conducting substrate for detecting species such as nitric oxide (NO), carbon monoxide (CO), oxygen (O | 10-08-2009 |
| 20090024269 | METHOD FOR DETERMINING THE CENTRE OF GRAVITY FOR AN AUTOMOTIVE VEHICLE - Methods for determining the height, horizontal position, and lateral position of the centre of gravity of a vehicle are disclosed. The methods comprise constructing a plurality of models of vehicle behaviour, each model including a plurality of parameters that determine vehicle behaviour including parameters that define the position of the centre of gravity. The method then measures actual vehicle behaviour during operation of the vehicle. The actual behaviour and the behaviour predicted by the models are then compared to determine which of the models most effectively predicts behaviour of the vehicle. The model that is most effective in predicting the actual behaviour of the vehicle is then assumed to include amongst its parameters an estimate of the position of the centre of gravity of the vehicle. | 01-22-2009 |
