Master Thesis: Optimum control, observers and predictors in direct conversion receivers (NFC)

Farkas Kiss Endre legjobb állása NXP Semiconductors Austria GmbH & Co KG Standort Gratkorn

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Lieber NXP Semiconductors Austria GmbH & Co KG Standort Gratkorn!

Ich möchte mich bei Ihrem Unternehmen als Master Thesis: Optimum control, observers and predictors in direct conversion receivers (NFC) bewerben. 
Ich bin ein Fullstack-Entwickler, bei dem ich meine 10-jährige Erfahrung mit verschiedenen Technologien einsetzen kann.

Ich habe meinen Lebenslauf an diese E-Mail angehängt.

Wir freuen uns darauf, von Ihnen zu hören!


Endre Farkas Kiss "Sodika"
Java and PHP Fullstack Developer, Nudist, Vlogger

https://www.linkedin.com/in/farkas-kiss-63bb9210a
https://sodika.org

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Master Thesis: Optimum control, observers and predictors in direct conversion receivers (NFC)Gratkorn Apply Scope: A typical NFC analog frontend of a direct conversion receiver topology consists of an RF attenuator, a Mixer, a DC-offset cancellation stage, a baseband gain stage and an ADC. The optimal configuration of the gain and DC-offset cancellation stages (=RX chain configuration) depends on the communication environment and hence is subject to online control. As inputs to the control block, received signal strength indicator (RSSI) and ADC output signals are usually provided. An optimal configuration of the RX chain ensures that the ADC range is exploited optimally, i.e. that the overall resolution is maximized with regards to the current communication environment. Often, online control is aggravated by the dynamic nature of the communication environment, which requires adaptation of the RX chain configuration also during data exchange. State-of-the art implementations of the control block are set on iterative approaches combined with static configurations and possibly fail to track the optimal configuration when the environment changes fast. Objectives: Evaluation of possible implementations of control concepts such as optimal control or model predictive control for the purpose of optimizing the RX chain configuration. Analysis of the trade-off between regulation speed, its accuracy with regards to joint optimal solutions and the corresponding performance bounds given an implementation of the above explained RX chain. Evaluation of conditions where the communication environment changes fast and/or Assessment of the impact of missing information when not all control block inputs can be observed (e.g. due to ADC clipping). Your Profile: Knowledge in control theory, measurement systems, statistical signal processing, or optimization are beneficial. Programming experience with C/C++, Python and/or MATLAB Personal engagement and eagerness to learn, Good communication skills in English For the successful completion of the Master Thesis you will receive a remuneration of a one-time payment of EUR 5.250, - gross. Additionally you will get a bonus of EUR 2.000, - gross if you receive an excellent grade "Sehr gut" for your Thesis. Apply PARTTIME R-10038550 About UsOur people are the heart and soul of our business. Their talent enables NXP to continue providing Secure Connections for a Smarter World. Helping every employee to be the best that they can be is a core part of our philosophy. This means creating the right environment for individuals to flourish, with ample opportunities for career development.