Peitsch
Manuel Peitsch, Peseux CH
Patent application number | Description | Published |
---|---|---|
20130254772 | VERIFICATION OF COMPLEX WORKFLOWS THROUGH INTERNAL ASSESSMENT OR COMMUNITY BASED ASSESSMENT - A method of implementing verification of a complex workflow includes partitioning the workflow into modules, wherein the modules have inputs, processing steps and outputs; selecting, from the workflow, one of the partitioned modules for independent verification by challenge thereof; running, with a computing device, a challenge of the selected module, the challenge comprising comparing reference outputs to outputs of the selected module, wherein reference inputs are received by the selected module and the reference outputs are generated using the reference inputs and one of an ideal performing module or a well-established module; determining whether outputs of the selected module meet verification criteria with respect to the reference outputs, and based on the determining, implementing one of: declaring the selected module verified; subdividing the selected module into smaller modules and repeating the challenge on the smaller modules; or declaring the selected module not verified. | 09-26-2013 |
20140259215 | METHOD FOR EXPRESSING DEOXYRIBONUCLEASE IN PLANTS - The present invention provides, in one aspect, to a method for expressing DNase in a plant comprising growing a plant that has been transformed with a nucleic acid construct comprising a nucleic acid sequence encoding DNase under the control of a regulatory nucleotide sequence that regulates the transcription of said nucleic acid sequence in said plant. | 09-11-2014 |
20140371426 | METHOD FOR PRODUCING APOLIPOPROTEIN IN PLANTS - The present invention provides, in one aspect, a method for producing Apolipoprotein in a plant comprising incubating or growing a plant comprising a nucleic acid construct comprising, consisting or consisting essentially of a nucleic acid sequence encoding an Apolipoprotein fusion protein that comprises a fusion protein partner that induces the formation of a protein body in a plant, preferably, wherein the nucleic acid construct is introduced or infiltrated into the plant prior to the incubating or growing step. | 12-18-2014 |
Manuel Claude Peitsch, Peseux CH
Patent application number | Description | Published |
---|---|---|
20140114987 | SYSTEMS AND METHODS FOR QUANTIFYING THE IMPACT OF BIOLOGICAL PERTURBATIONS - Systems and methods are described for quantifying the response of a biological system to one or more perturbations. First and second datasets corresponding to a response of a biological system to first and second treatments are received. A plurality of computational network models that represent the biological system are provided, each model including nodes representing a plurality of biological entities and edges representing relationships between the nodes in the model. A first set of scores is generated, representing the perturbation of the biological system based on the first dataset and the plurality of models, and a second set of scores representing the perturbation of the biological system based on the second dataset and the plurality of computational models. One or more biological impact factors are generated based on each of the first set and second set of scores that represent the biological impact of the perturbation on the biological system. | 04-24-2014 |
20140172398 | SYSTEMS AND METHODS FOR NETWORK-BASED BIOLOGICAL ASSESSMENT - Systems and methods are directed to computerized methods and one or more computer processors for quantifying the perturbation of a biological system in response to an agent. A set of treatment data corresponding to a response of a biological system to an agent and a set of control data are received. A computational causal network model represents the biological system and includes nodes representing biological entities, edges representing relationships between the biological entities, and direction values representing the expected direction of change between the control data and the treatment data. Activity measures are calculated and represent a difference between the treatment data and the control data, and weight values are calculated for the nodes. A score for the computational model is generated representative of the perturbation of the biological system to the agent and is based on the direction values, the weight values and the activity measures. | 06-19-2014 |
Peter Peitsch, Erfurt DE
Patent application number | Description | Published |
---|---|---|
20140138439 | CLOSING UNIT, CLOSING APPARATUS, AND METHOD FOR UNLOCKING AND/OR LOCKING A LOCK - A closing unit, closing apparatus, and method for locking and/or unlocking a lock is provided. The closing unit can include an actuator for moving or for blocking and releasing a locking and unlocking unit of the lock, an electrical energy supply arrangement, a switch between the electrical energy supply arrangement and the actuator, an encryption/decryption unit, a key memory, as well as a passive RFID basic circuit having an antenna, where at least the actuator, the switch between the electrical energy supply arrangement and the actuator, the encryption/decryption unit, and the key memory are disposed in a housing that cannot be opened without destroying it. | 05-22-2014 |
20140210637 | METHOD AND DEVICE FOR TRANSMITTING SENSOR DATA OF AN IMPLANTABLE SENSOR TO AN EXTERNAL DATA PROCESSING UNIT - During the transmission of sensor data of an implantable sensor with a measurement data recorder, an energy storage unit and a transmitter unit to an external data processing unit with a transmitter/receiver unit, a high-frequency energy carrier signal is firstly emitted from an energy supply unit. At least a part of the energy contained in the high-frequency energy carrier signal is stored in the energy storage unit of the implantable sensor. After the ending of the emission of the high-frequency energy carrier signal, a sensor measurement is carried out using the measurement data recorder of the implantable sensor. The measured sensor data are transmitted from the transmitter unit of the implantable sensor to the transmitter/receiver unit of the external data processing unit. The result is a transmission method, in which interference from the HF feed is avoided, with a compact design. | 07-31-2014 |