Heinz-Peter Ulrich Liechtenecker, BSc MSc
- Wissenschaftlicher Mitarbeiter
Kontakt:
h.liechtenecker[at]fh-kaernten[dot]at
Standort:
Keine Daten verfügbar
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Control Systems Lab 1 Gruppe A | LB | 2,0 | 3,0 | M2.00000.12.041 |
| Control Systems Lab 1 Gruppe B | LB | 2,0 | 3,0 | M2.00000.12.041 |
| Vertiefung: Control Systems | Typ | SWS | ECTS-Credits | |
| Embedded Control Systems Special Topics | ILV | 2,0 | 3,0 | M2.05280.31.441 |
| Vertiefung: Mechatronic Systems | Typ | SWS | ECTS-Credits | |
| Embedded Control Systems Special Topics | ILV | 2,0 | 3,0 | M2.05280.31.441 |
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Regelungstechnik 1 - Gruppe I | ILV | 3,0 | 3,0 | B2.05270.30.770 |
| Regelungstechnik 1 - Gruppe II | ILV | 3,0 | 3,0 | B2.05270.30.770 |
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Regelungstechnik 1 - Gruppe I | ILV | 3,0 | 3,0 | B2.05270.30.770 |
| Regelungstechnik 1 - Gruppe II | ILV | 3,0 | 3,0 | B2.05270.30.770 |
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Master Thesis | MT | 0,0 | 25,0 | M2.00000.40.061 |
| Master Thesis - Seminar | SE | 2,0 | 2,0 | M2.00000.40.071 |
| Sensor Models | ILV | 1,5 | 3,0 | M2.05280.22.871 |
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Bachelorarbeit Seminar 2 | SE | 1,0 | 1,0 | B2.05270.60.480 |
| Bachelorprüfung | DP | 0,0 | 2,0 | B2.05270.60.470 |
| Projekt 1 | PT | 3,0 | 5,0 | B2.05270.40.170 |
| Regelungstechnik 2 - Gruppe I | ILV | 2,0 | 2,0 | B2.05270.40.280 |
| Regelungstechnik 2 - Gruppe II | ILV | 2,0 | 2,0 | B2.05270.40.280 |
| Lehrveranstaltung | Typ | SWS | ECTS-Credits | LV-Nummer |
|---|---|---|---|---|
| Regelungstechnik 2 - Gruppe I | ILV | 2,0 | 2,0 | B2.05270.40.280 |
| Regelungstechnik 2 - Gruppe II | ILV | 2,0 | 2,0 | B2.05270.40.280 |
| Regelungstechnik 2 | ILV | 2,0 | 2,0 | B2.05270.40.280 |
| Titel | Autor | Jahr |
|---|---|---|
| Analysis and control of a three tank system | Johannes Reichhold | 2021 |
| Design of hardware components for a Ball on Wheel system and derivation of the associated mathematical description | Andreas Mörtlitsch | 2021 |
| Development of control algorithms and implementation on hardware for a ball on wheel system | Andreas Warmuth | 2021 |
| Attitude Control of a collective-pitch quadcopter | Tobias Wolfram Spitzer | 2019 |
| Development of a Neural Network Aided Autopilot for a Variable-Pitch Quadrotor | Alexandra Isolde Samonik | 2019 |
| Titel | Autor | Jahr |
|---|---|---|
| Analysis and control of a three tank system | Johannes Reichhold | 2021 |
| Design of hardware components for a Ball on Wheel system and derivation of the associated mathematical description | Andreas Mörtlitsch | 2021 |
| Development of control algorithms and implementation on hardware for a ball on wheel system | Andreas Warmuth | 2021 |
| Titel | Autor | Jahr |
|---|---|---|
| Attitude Control of a collective-pitch quadcopter | Tobias Wolfram Spitzer | 2019 |
| Development of a Neural Network Aided Autopilot for a Variable-Pitch Quadrotor | Alexandra Isolde Samonik | 2019 |
| Titel | Autor | Jahr |
|---|---|---|
| Antriebsauslegung für regelungstechnische Systeme | 2021 | |
| Linear Cart System | 2021 | |
| Mathematische Modellierung eines modularen, linearen Cart Systems | 2021 | |
| Uniform Real-Time Platform Independent Software Framework | 2020 | |
| Vision Control I | 2020 | |
| Vision Control II | 2020 | |
| Automatisierte Programmierung von speicherprogrammierbaren Steuerungen mittels Mathworks PLC-Coder | 2019 | |
| Kommunikationskonzepte für PosiConBall 2 | 2019 |
| Titel | Autor | Jahr |
|---|---|---|
| Antriebsauslegung für regelungstechnische Systeme | 2021 | |
| Linear Cart System | 2021 | |
| Mathematische Modellierung eines modularen, linearen Cart Systems | 2021 |
| Titel | Autor | Jahr |
|---|---|---|
| Uniform Real-Time Platform Independent Software Framework | 2020 | |
| Vision Control I | 2020 | |
| Vision Control II | 2020 |
| Titel | Autor | Jahr |
|---|---|---|
| Automatisierte Programmierung von speicherprogrammierbaren Steuerungen mittels Mathworks PLC-Coder | 2019 | |
| Kommunikationskonzepte für PosiConBall 2 | 2019 |
| Laufzeit | März/2020 - August/2022 |
| Projektleitung | |
| Projektmitarbeiter*innen | |
| Forschungsschwerpunkt | Elektrische Energietechnik |
| Studiengang | |
| Forschungsprogramm | INTERREG VA SI-AT |
| Förderinstitution/Auftraggeber |
Hydrogen (H2) is a key technology for achieving Europe’s climate and energy goals. H2GreenTECH project is looking at cost-efficient ways to make the European economy more climate-friendly and less energy-consuming with the development of HYDROGEN TECHNOLOGY.
The goal is improve access and use of research infrastructure on hydrogen technologies in Slovenia and Austria with the establishment of One-stop-shop Hydrogen Center for enterprises, researchers and students till 2025.
Furthermore we build-up competences on hydrogen technologies with developed three demonstration models for the practical demonstration of the developed prototypes and educational module.
The H2GreenTECH project is co-funded by the European Regional Development Fund as part of the Cooperation Programme Interreg V-A Slovenia-Austria.
- Kooperationsprogramm Interreg V-A Slovenia-Austria (Fördergeber/Auftraggeber)
| Laufzeit | März/2020 - August/2022 |
| Projektleitung | |
| Projektmitarbeiter*innen | |
| Forschungsschwerpunkt | Elektrische Energietechnik |
| Studiengang | |
| Forschungsprogramm | INTERREG VA SI-AT |
| Förderinstitution/Auftraggeber |
Hydrogen (H2) is a key technology for achieving Europe’s climate and energy goals. H2GreenTECH project is looking at cost-efficient ways to make the European economy more climate-friendly and less energy-consuming with the development of HYDROGEN TECHNOLOGY.
The goal is improve access and use of research infrastructure on hydrogen technologies in Slovenia and Austria with the establishment of One-stop-shop Hydrogen Center for enterprises, researchers and students till 2025.
Furthermore we build-up competences on hydrogen technologies with developed three demonstration models for the practical demonstration of the developed prototypes and educational module.
The H2GreenTECH project is co-funded by the European Regional Development Fund as part of the Cooperation Programme Interreg V-A Slovenia-Austria.
- Kooperationsprogramm Interreg V-A Slovenia-Austria (Fördergeber/Auftraggeber)
| Laufzeit | März/2020 - August/2022 |
| Projektleitung | |
| Projektmitarbeiter*innen | |
| Forschungsschwerpunkt | Elektrische Energietechnik |
| Studiengang | |
| Forschungsprogramm | INTERREG VA SI-AT |
| Förderinstitution/Auftraggeber |
Hydrogen (H2) is a key technology for achieving Europe’s climate and energy goals. H2GreenTECH project is looking at cost-efficient ways to make the European economy more climate-friendly and less energy-consuming with the development of HYDROGEN TECHNOLOGY.
The goal is improve access and use of research infrastructure on hydrogen technologies in Slovenia and Austria with the establishment of One-stop-shop Hydrogen Center for enterprises, researchers and students till 2025.
Furthermore we build-up competences on hydrogen technologies with developed three demonstration models for the practical demonstration of the developed prototypes and educational module.
The H2GreenTECH project is co-funded by the European Regional Development Fund as part of the Cooperation Programme Interreg V-A Slovenia-Austria.
- Kooperationsprogramm Interreg V-A Slovenia-Austria (Fördergeber/Auftraggeber)
| Laufzeit | März/2020 - August/2022 |
| Projektleitung | |
| Projektmitarbeiter*innen | |
| Forschungsschwerpunkt | Elektrische Energietechnik |
| Studiengang | |
| Forschungsprogramm | INTERREG VA SI-AT |
| Förderinstitution/Auftraggeber |
Hydrogen (H2) is a key technology for achieving Europe’s climate and energy goals. H2GreenTECH project is looking at cost-efficient ways to make the European economy more climate-friendly and less energy-consuming with the development of HYDROGEN TECHNOLOGY.
The goal is improve access and use of research infrastructure on hydrogen technologies in Slovenia and Austria with the establishment of One-stop-shop Hydrogen Center for enterprises, researchers and students till 2025.
Furthermore we build-up competences on hydrogen technologies with developed three demonstration models for the practical demonstration of the developed prototypes and educational module.
The H2GreenTECH project is co-funded by the European Regional Development Fund as part of the Cooperation Programme Interreg V-A Slovenia-Austria.
- Kooperationsprogramm Interreg V-A Slovenia-Austria (Fördergeber/Auftraggeber)
