Solving the Max-Min SNR optimization problem of array antenna signal processing : an iterative approach using convex optimization steps / by A. Yasotharan. : D68-6/120-2012E-PDF
The CBRNE Research and Technology Initiative (CRTI) funded the project CRTI-04-0029RD “Development of an Electronic Neutron Dosimeter” to produce a prototype electronic neutron dosimeter capable of meeting both civilian and military performance specifications, a feat that has not been achieved by any existing commercial device to-date. Significant technical hurdles were encountered throughout the development process, resulting in large schedule delays and increased development costs. Nonetheless, final prototype devices were delivered and tested, indicating good general performance, although several significant issues were encountered that will require further work to achieve desired performance levels.
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| Ministère/Organisme | Defence R&D Canada. |
|---|---|
| Titre | Solving the Max-Min SNR optimization problem of array antenna signal processing : an iterative approach using convex optimization steps / by A. Yasotharan. |
| Titre de la série | Technical Memorandum ; 2012-120 |
| Type de publication | Série - Voir l'enregistrement principal |
| Langue | [Anglais] |
| Format | Électronique |
| Document électronique | |
| Note(s) | "December 2012." Includes bibliographical references. |
| Information sur la publication | [Ottawa] : Defence Research and Development Canada, c2012. |
| Auteur / Contributeur | Yasotharan, Ambighairajah. |
| Description | xii, 32 p. : tables, graphs. |
| Numéro de catalogue |
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| Descripteurs | Technical reports GPS reception Optimum array weights |
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