Urban water supply automation - Today and tomorrow
(2021) In Aqua: Water Infrastructure, Ecosystems and Society 70(4). p.420-437- Abstract
Automation is a collection of a whole set of theories and methods to make a system work automatically as intended, in our case the urban water supply system. A critical feature of automation is the feedback principle: a sensor is measuring a certain variable, e.g. a concentration; a computer tests that the measurement is valid; a computer algorithm calculates and decides what should be corrected; a pump or valve or some other device transforms the decision to action. All of this is untouched by human hand. The 'intention', or the goal, must be provided to the controller. The key component of automation is the system that can represent any component or process in the water supply system and even the complete system. Automation technology... (More)
Automation is a collection of a whole set of theories and methods to make a system work automatically as intended, in our case the urban water supply system. A critical feature of automation is the feedback principle: a sensor is measuring a certain variable, e.g. a concentration; a computer tests that the measurement is valid; a computer algorithm calculates and decides what should be corrected; a pump or valve or some other device transforms the decision to action. All of this is untouched by human hand. The 'intention', or the goal, must be provided to the controller. The key component of automation is the system that can represent any component or process in the water supply system and even the complete system. Automation technology always must be combined with a true understanding of people at all levels. Otherwise, there is a high risk for misunderstandings and failures. Three categories of problems are highlighted, where automation can contribute: uncertainty, feedback, and complexity. A key challenge is the handling of disturbances. Integrated management of the whole urban water cycle will be required in future urban areas to acquire sustainable operations. Automation is a crucial condition to make integration possible in complex systems.
(Less)
- author
- Olsson, Gustaf LU
- organization
- publishing date
- 2021
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Complexity, Control, Disturbances, Feedback, Integration, Uncertainty
- in
- Aqua: Water Infrastructure, Ecosystems and Society
- volume
- 70
- issue
- 4
- pages
- 18 pages
- publisher
- IWA Publishing
- external identifiers
-
- scopus:85110476539
- ISSN
- 2709-8028
- DOI
- 10.2166/aqua.2020.115
- language
- English
- LU publication?
- yes
- id
- b1e7672a-9875-4d3b-8a11-c31c14d4746e
- date added to LUP
- 2021-08-23 11:19:11
- date last changed
- 2022-04-27 03:25:56
@article{b1e7672a-9875-4d3b-8a11-c31c14d4746e,
abstract = {{<p>Automation is a collection of a whole set of theories and methods to make a system work automatically as intended, in our case the urban water supply system. A critical feature of automation is the feedback principle: a sensor is measuring a certain variable, e.g. a concentration; a computer tests that the measurement is valid; a computer algorithm calculates and decides what should be corrected; a pump or valve or some other device transforms the decision to action. All of this is untouched by human hand. The 'intention', or the goal, must be provided to the controller. The key component of automation is the system that can represent any component or process in the water supply system and even the complete system. Automation technology always must be combined with a true understanding of people at all levels. Otherwise, there is a high risk for misunderstandings and failures. Three categories of problems are highlighted, where automation can contribute: uncertainty, feedback, and complexity. A key challenge is the handling of disturbances. Integrated management of the whole urban water cycle will be required in future urban areas to acquire sustainable operations. Automation is a crucial condition to make integration possible in complex systems.</p>}},
author = {{Olsson, Gustaf}},
issn = {{2709-8028}},
keywords = {{Complexity; Control; Disturbances; Feedback; Integration; Uncertainty}},
language = {{eng}},
number = {{4}},
pages = {{420--437}},
publisher = {{IWA Publishing}},
series = {{Aqua: Water Infrastructure, Ecosystems and Society}},
title = {{Urban water supply automation - Today and tomorrow}},
url = {{http://dx.doi.org/10.2166/aqua.2020.115}},
doi = {{10.2166/aqua.2020.115}},
volume = {{70}},
year = {{2021}},
}