Posthuma
Bouke Hessel Posthuma, Den Haag NL
| Patent application number | Description | Published |
|---|---|---|
| 20100070398 | SYSTEM AND METHOD FOR COMBINED ANALYSIS OF PAID AND INCURRED LOSSES - A method for combined analysis of paid and incurred losses, includes defining a first data array of a plurality of payments as paid losses, defining a second data array of a plurality of reserves as incurred losses, each of the plurality of the payments and the plurality of reserves having a multivariate normal distribution and joining the first data array and the second data array as a joint dataset, under a condition of equality of payments and reserves for a predetermined loss period. | 03-18-2010 |
Carl Robert Posthuma, Wheaton, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20090060013 | OPTIMIZING PRECODER SETTINGS USING AVERAGE SINR REPORTS FOR GROUPS OF TONES - Techniques are disclosed for compensating for crosstalk using adaptation of data signals transmitted over respective channels of a communication network. In one example, a method comprises the following steps. Data is transmitted to a communication network device via a communication line during a sequence of periods. For each period of the sequence of periods, a separate value of a measure of crosstalk that was measured at the communication network device is received, each value being an average of measurements at the device of measures of crosstalk for a plurality of communication network signal subcarriers. For each individual signal subcarrier of the plurality, a matrix is updated based on the received values, the matrix being configured to precode data transmissions to the communication network device over the individual signal subcarrier. The communication network may be a DSL system, the signal subcarriers may be DSL tones, and the measure of crosstalk may be a SINR value. | 03-05-2009 |
| 20090296865 | METHODS AND APPARATUS FOR PROVIDING SYNCHRONIZATION IN A MULTI-CHANNEL COMMUNICATION SYSTEM - A multi-channel processing module is arranged in series with multiple channels of a communication system. The processing module synchronizes downstream symbols among the channels, and synchronizes downstream symbols for at least a given one of the channels with upstream symbols for that channel. The synchronization of downstream symbols among the channels and the synchronization of downstream symbols for at least the given channel with upstream symbols for that channel are collectively achieved by adjusting downstream and upstream adjustable delay elements associated with respective downlink and uplink signal paths in the multi-channel processing module. The channels may comprise respective subscriber lines of a DSL communication system. | 12-03-2009 |
Karin Ingeborg Posthuma, Enkhuizen NL
| Patent application number | Description | Published |
|---|---|---|
| 20140157454 | Powdery Mildew Resistance Providing Genes in Cucumis Sativus - The present invention relates to powdery mildew resistance providing genes of the | 06-05-2014 |
| 20140189908 | Powdery Mildew Resistance Providing Genes in Cucumis Melo - The present invention relates to powdery mildew resistance providing genes of the | 07-03-2014 |
Niels Posthuma, Leuven BE
| Patent application number | Description | Published |
|---|---|---|
| 20140179054 | METHOD FOR FORMING PATTERNS OF DIFFERENTLY DOPED REGIONS - The disclosed technology generally relates to forming patterns of doped semiconductor regions, and more particularly to methods of forming such patterns in fabricating photovoltaic devices. In one aspect, a method of forming a pattern of different doped regions at the same side of a semiconductor substrate comprises providing a patterned doped layer on a surface of the semiconductor substrate at predetermined locations where at least one first doped region is to be formed. The method additionally includes selectively growing at least one second doped region epitaxially at the same side of the semiconductor substrate using the patterned doped layer as an epitaxial growth mask. Furthermore, selectively growing comprises driving dopants from the patterned doped layer into the semiconductor substrate to form the first doped region at the predetermined locations. | 06-26-2014 |