Advances in precision livestock farming
Herausgeber: Berckmans, Daniel
Advances in precision livestock farming
Herausgeber: Berckmans, Daniel
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This collection reviews recent advances in developing precision livestock technologies. It assesses developments in continuous, automated, real-time monitoring of production, health and welfare traits of livestock to improve the efficiency, welfare and environmental impact of livestock farming.
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This collection reviews recent advances in developing precision livestock technologies. It assesses developments in continuous, automated, real-time monitoring of production, health and welfare traits of livestock to improve the efficiency, welfare and environmental impact of livestock farming.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Burleigh Dodds Series in Agricultural Science Nr.105
- Verlag: Burleigh Dodds Science Publishing
- Seitenzahl: 444
- Erscheinungstermin: 28. Juni 2022
- Englisch
- Abmessung: 235mm x 157mm x 28mm
- Gewicht: 792g
- ISBN-13: 9781786764713
- ISBN-10: 1786764717
- Artikelnr.: 60041534
- Burleigh Dodds Series in Agricultural Science Nr.105
- Verlag: Burleigh Dodds Science Publishing
- Seitenzahl: 444
- Erscheinungstermin: 28. Juni 2022
- Englisch
- Abmessung: 235mm x 157mm x 28mm
- Gewicht: 792g
- ISBN-13: 9781786764713
- ISBN-10: 1786764717
- Artikelnr.: 60041534
Part 1 Data collection and analysis
1.Developments in wearable sensors for monitoring livestock: Mark Trotter,
Central Queensland University, Australia;
2.Developments in thermal imaging techniques to assess livestock health:
Al Schaefer, Animal Inframetics Inc./University of Alberta, Canada;
3.Developments in acoustic techniques to assess livestock health: Dries
Berckmans, Soundtalks NV, Belgium;
4.Developments in machine vision techniques to monitor livestock behaviour
and health: Claudia Arcidiacono, University of Catania, Italy;
5.Developments in activity/location technologies for monitoring livestock
movement/behaviour: Nicolas Lyons, DPI-NSW, Australia;
6.Developments in data analysis for decision making in precision livestock
farming systems: Lenny van Erp-van der Kooij, HAS University of Applied
Sciences, The Netherlands;
Part 2 Applications
7.Automated monitoring and control of livestock housing conditions:
Marcella Guarino, University of Milan, Italy;
8.Developments in automated/precision feeding systems for livestock: Ilan
Halachmi, ARO-Volcani Centre, Israel;
9.Developments in automated systems for monitoring livestock health:
mastitis: Henk Hogeveen, Wageningen University, The Netherlands;
10.Developments in automated systems for monitoring livestock health:
lameness: Ed Codling, University of Essex, UK;
11.Developments in automated monitoring of livestock fertility/pregnancy:
Michael Iwersen, University of Veterinary Medicine - Vienna, Austria;
12.Advances in robotic milking systems: Bernadette O'Brien, Teagasc,
Ireland;
13.Developments in monitoring grazing behaviour and automated grazing
management: Dana Campbell, CSIRO, Australia;
1.Developments in wearable sensors for monitoring livestock: Mark Trotter,
Central Queensland University, Australia;
2.Developments in thermal imaging techniques to assess livestock health:
Al Schaefer, Animal Inframetics Inc./University of Alberta, Canada;
3.Developments in acoustic techniques to assess livestock health: Dries
Berckmans, Soundtalks NV, Belgium;
4.Developments in machine vision techniques to monitor livestock behaviour
and health: Claudia Arcidiacono, University of Catania, Italy;
5.Developments in activity/location technologies for monitoring livestock
movement/behaviour: Nicolas Lyons, DPI-NSW, Australia;
6.Developments in data analysis for decision making in precision livestock
farming systems: Lenny van Erp-van der Kooij, HAS University of Applied
Sciences, The Netherlands;
Part 2 Applications
7.Automated monitoring and control of livestock housing conditions:
Marcella Guarino, University of Milan, Italy;
8.Developments in automated/precision feeding systems for livestock: Ilan
Halachmi, ARO-Volcani Centre, Israel;
9.Developments in automated systems for monitoring livestock health:
mastitis: Henk Hogeveen, Wageningen University, The Netherlands;
10.Developments in automated systems for monitoring livestock health:
lameness: Ed Codling, University of Essex, UK;
11.Developments in automated monitoring of livestock fertility/pregnancy:
Michael Iwersen, University of Veterinary Medicine - Vienna, Austria;
12.Advances in robotic milking systems: Bernadette O'Brien, Teagasc,
Ireland;
13.Developments in monitoring grazing behaviour and automated grazing
management: Dana Campbell, CSIRO, Australia;
Part 1 Data collection and analysis
1.Developments in wearable sensors for monitoring livestock: Mark Trotter,
Central Queensland University, Australia;
2.Developments in thermal imaging techniques to assess livestock health:
Al Schaefer, Animal Inframetics Inc./University of Alberta, Canada;
3.Developments in acoustic techniques to assess livestock health: Dries
Berckmans, Soundtalks NV, Belgium;
4.Developments in machine vision techniques to monitor livestock behaviour
and health: Claudia Arcidiacono, University of Catania, Italy;
5.Developments in activity/location technologies for monitoring livestock
movement/behaviour: Nicolas Lyons, DPI-NSW, Australia;
6.Developments in data analysis for decision making in precision livestock
farming systems: Lenny van Erp-van der Kooij, HAS University of Applied
Sciences, The Netherlands;
Part 2 Applications
7.Automated monitoring and control of livestock housing conditions:
Marcella Guarino, University of Milan, Italy;
8.Developments in automated/precision feeding systems for livestock: Ilan
Halachmi, ARO-Volcani Centre, Israel;
9.Developments in automated systems for monitoring livestock health:
mastitis: Henk Hogeveen, Wageningen University, The Netherlands;
10.Developments in automated systems for monitoring livestock health:
lameness: Ed Codling, University of Essex, UK;
11.Developments in automated monitoring of livestock fertility/pregnancy:
Michael Iwersen, University of Veterinary Medicine - Vienna, Austria;
12.Advances in robotic milking systems: Bernadette O'Brien, Teagasc,
Ireland;
13.Developments in monitoring grazing behaviour and automated grazing
management: Dana Campbell, CSIRO, Australia;
1.Developments in wearable sensors for monitoring livestock: Mark Trotter,
Central Queensland University, Australia;
2.Developments in thermal imaging techniques to assess livestock health:
Al Schaefer, Animal Inframetics Inc./University of Alberta, Canada;
3.Developments in acoustic techniques to assess livestock health: Dries
Berckmans, Soundtalks NV, Belgium;
4.Developments in machine vision techniques to monitor livestock behaviour
and health: Claudia Arcidiacono, University of Catania, Italy;
5.Developments in activity/location technologies for monitoring livestock
movement/behaviour: Nicolas Lyons, DPI-NSW, Australia;
6.Developments in data analysis for decision making in precision livestock
farming systems: Lenny van Erp-van der Kooij, HAS University of Applied
Sciences, The Netherlands;
Part 2 Applications
7.Automated monitoring and control of livestock housing conditions:
Marcella Guarino, University of Milan, Italy;
8.Developments in automated/precision feeding systems for livestock: Ilan
Halachmi, ARO-Volcani Centre, Israel;
9.Developments in automated systems for monitoring livestock health:
mastitis: Henk Hogeveen, Wageningen University, The Netherlands;
10.Developments in automated systems for monitoring livestock health:
lameness: Ed Codling, University of Essex, UK;
11.Developments in automated monitoring of livestock fertility/pregnancy:
Michael Iwersen, University of Veterinary Medicine - Vienna, Austria;
12.Advances in robotic milking systems: Bernadette O'Brien, Teagasc,
Ireland;
13.Developments in monitoring grazing behaviour and automated grazing
management: Dana Campbell, CSIRO, Australia;