X. Wang scite author profile

X. Wang

4Publications

9Citation Statements Received

22Citation Statements Given

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Affiliations

Xi'an University of Technology, Johannes Kepler University of Linz

Publications

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A Design Framework for Predictive Engine Control

Wang

Waschl

Alberer

et al. 2011

Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles

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Résumé -Un cadre de conception pour la commande prédictive de moteurs -La commande prédictive par modèle (Model Predictive Control ; MPC) a été proposée plusieurs fois dans l'automatique pour l'automobile, avec des résultats prometteurs, principalement à partir d'une approche MPC linéaire. Toutefois, comme la plupart des systèmes automobiles sont non linéaires, la commande prédictive non linéaire (Nonlinear MPC ; NMPC) pourrait représenter une option intéressante. Malheureusement, la conception d'une commande optimale à partir d'un modèle non linéaire générique conduit généralement à un problème non convexe complexe. Dans ce contexte, cet article présente deux schémas différents pour prendre en compte la non linéarité du système en vue de la conception de la commande. En premier lieu, une méthode MPC multilinéaire est présentée sur la base d'une segmentation du système et, en second lieu, une conception de système de commande basée sur une identification de système non linéaire utilisant une structure quasi linéaire à paramètres variants (Linear Parameter Varying ; LPV) est proposée ; celle-ci est alors utilisée dans un cadre de conception de NMPC. Cet article présente ces approches et leur application à un système bien connu, le module d'air (air path) d'un moteur Diesel. Abstract -A Design Framework for Predictive Engine Control -Model Predictive Control (MPC) has been proposed several times for automotive control, with promising results, mostly based on a linearMPC approach. However, as most automotive systems are nonlinear, Nonlinear MPC (NMPC) would be an interesting option. Unfortunately, an optimal control design with a generic nonlinear model usually leads to a complex, non convex problem. Against this background, this paper presents two different schemes to take into account the system nonlinearity in the control design. First, a multi-linear MPC method is shown based on the segmentation of the system and then a control system design based on a nonlinear system identification using a quasi Linear Parameter Varying (LPV) structure is proposed, which is then used in a NMPC design framework. This paper presents the approaches and the application to a well studied system, the air path of a Diesel engine.

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On-wafer passives de-embedding based on open-pad and Transmission Line measurement

Hamidipour

Jahn

Starzer

et al. 2010

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Wideband differential antenna in package with superstrate structure at 77GHz

Tong

Fischer

Wang

et al. 2012

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This paper presents a novel antenna in package solution with superstrate structure at 77 GHz for automotive radar applications. Two edge-coupled patches are driven by a differential signal which supports seamless integration with differential output MMICs in a single package. The antenna has a wide bandwidth (17 GHz) and stable gain. The antenna prototypes are fabricated using Embedded Wafer Level Ball Grid Array (eWLB) packaging technology. The measurement results show that the EIRP of the package (chip + antenna) reaches 11 dBm from 75 GHz to 80 GHz. This concept is suitable for a wide area of millimeter-wave front-end applications.Index Terms -antenna in package, differential antenna, superstrate structure, wideband

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Cost reference particle filter with multi-probability distribution for nonlinear dynamic systems with unknown noise statistics

Wang

et al. 2023

Digital Signal Processing

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X. Wang

A Design Framework for Predictive Engine Control

On-wafer passives de-embedding based on open-pad and Transmission Line measurement

Wideband differential antenna in package with superstrate structure at 77GHz

Cost reference particle filter with multi-probability distribution for nonlinear dynamic systems with unknown noise statistics

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