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The system consists of a Raspberry Pi which analysis the output of multiple sensors and sends this data via Bluetooth to someone's phone. They also developed an user-friendly app which displays all this data. The system does not take care of the plants itself, it only monitors a variety of environmental parameters | The system consists of a Raspberry Pi which analysis the output of multiple sensors and sends this data via Bluetooth to someone's phone. They also developed an user-friendly app which displays all this data. The system does not take care of the plants itself, it only monitors a variety of environmental parameters | ||
===Thermostats and measurements of oxygen=== | |||
== References == | == References == | ||
<references/> | <references/> |
Revision as of 14:37, 26 April 2018
Group members
- Isabelle Cooijmans | 1014516 | i.h.m.cooijmans@student.tue.nl
- Ramon Hameleers | 0998964 | r.j.e.hameleers@student.tue.nl
- Angelique Husson | 0956648 | a.c.e.husson@student.tue.nl
- Marrit Jen Hong Li | 0963568 | m.i.jen.hong.li@student.tue.nl
- Dana de Vreede | 1020836 | d.d.vreede@student.tue.nl
Problem statement
More elderly have to live at home because there is not enough personal staff in elderly homes and the number of elderly grows every year. Moreover, there is a trend of elderly who want to live independently. However not all elderly can live independently, they depend on home care, but home care cannot keep an eye on the elderly all the time.
Objectives
Our objectives are to help the elderly to live more independently at home and to give the home care a better overview of what is going on in the house of the elderly. Moreover, to give the family more comfort about how the elderly are going.
Users
First, the primary users, which are:
- the elderly
- the home care
Secondly, the secondary users, which are:
- the family
- the friends
- the government
thirdly, the tertiary users, which are:
- the technicians
Requirements
Requirements of primary users:
- The elderly need a system that helps them to be more independent.
- The elderly need to be reminded to take their medicine.
- The elderly need to be reminded to eat when they skipped a meal.
- The elderly need to be reminded to water the plants and keep busy.
- The home care needs to get a lower work pressure and a better overview of the state of the house of elderly.
Requirements of the secondary users:
- The secondary users need their elderly to be independent.
Requirements of the tertiary users:
- The tertiary users need a system that is easy to install and easy to maintain.
- The tertiary users need a system that gives a notification in case of an error or when it needs maintenance.
Approach, milestones and deliverables
Our approach will be based on a divide and conquer strategy. We will divide the big problem into subproblems, which we will solve independently and then put them together to get the big solution. The problem is to make some kind of smart house for a home living (forgetful) elderly, which need home care. Elderly live (better?) when they take care of things and keep busy. So having plans and hence responsibility to take care of the plans. Furthermore, most elderly have to take medication. However, they can forget to take those medications in time. Moreover, some elderly sometimes forget whether they have already eaten a meal or not. Furthermore, the temperature and oxygen levels are important to keep an eye on, whether the elderly take good care of themselves. So some milestones are:
- A system that recognizes that plans need watering and a system to notify the user that the plant needs care.
- A system that registers whether the user has eaten a meal and notify the user if the skipped a meal.
- A system that measures the temperature in the house and the oxygen levels.
- A system that helps the user to be reminded that medications need to be taken.
- A system that will keep the home care up to date about what is happening in the house.
For these subsystems, we need to build prototypes and test these. But for this, we first need to investigate the state of the art. The deliverables of this project are the systems who should work together as a whole and the prototypes of these systems and hence a prototype of the whole.
Literature study
The literature study can be divided into a few subjects. First of all a broad study of smart homes.
- Architecture of small assistance device for elderly [1]
- Monotoring and assistance system [2]
- Source connecting people with dementia to smart homes [3]
- [4]
- Smart home for elder care using wireless sensors [5]
- Wireless sensing network for monitoring elderly [6]
Secondly the state of the art of medication reminders.
Thirdly the state of the art of robots who take care of plants.
- The Pet Plant [10]
- Low cost colour sensors for monitoring plant growth in laboratory [11]
- Plant growth monitoring system, with dynamic user-interface [12]
- (fill in source)
Fourthly the state of the art of robots who look at the eating of their users.
- (fill in source)
Lastly, the state of the art of thermostats and of measurements of oxygen.
- Neofox oxygen sensors: precise oxygen sensors for both liquids and gasses. [13]
- PhO2: Smartphone based Blood Oxygen Level Measurement Systems using Near-IR and RED Wave-guided Light [14]
Robots who take care of plants
Low cost colour sensors for monitoring plant growth
A relatively new area of research is that of non-destructive methods to measure the health status of plants. Such as looking at subtle changes in the colour of the leaves. This paper mainly focuses on low cost colour sensor for monitoring leaf colour of plant tissues.
To implement this system a autonomous robotic arm containing RGB colour, environmental and proximity sensors are used, as well as a camera. The robotic arm uses five stepper motors controlled through a motor controller and a micro-step driver. Their system was either compatible with the ColorPAI or the TCS 3200 colour sensor and both were controlled with a Basic Stamp microcontroller. The ColorPai uses a RGB LED light source and records the quantity of light reflected back from the object to determine the color. The TCS3200 illuminates the object with two white LEDs and interprets the colour of the object by producing a square wave with a frequency proportional to the light reflected by the object. A completely different way of determing plant leaf colour is by using an image captured by the camera and determining through software the colour of each pixel. This may however lead to false colour. For example when shadows from overlapping leaves are misinterpreted as colours of the leaves itself.
They only tested the TCS3200 and calibrated it across a broad range of green and yellow colours. In the end it had an average error around the 4% when determining an RGB color in the range of green and yellow colours.
Plant growth monitoring system, with dynamic user-interface
The paper develops a prototype for an efficient plant growth monitoring system. It provides data about the environmental parameters surrounding the plant and maps the changes in plant growth to the inputs given by person caring for the plants, such as the quantity of water or fertilizers. It can also measure the plants height.
The system consists of a Raspberry Pi which analysis the output of multiple sensors and sends this data via Bluetooth to someone's phone. They also developed an user-friendly app which displays all this data. The system does not take care of the plants itself, it only monitors a variety of environmental parameters
Thermostats and measurements of oxygen
References
- ↑ Tsung-Yen Chen ; Pei-Hsuan Tsai ; Ting-Shuo Chou ; Chi-Sheng Shih ; Tei-Wei Kuo ; Jane W.-S. Liu ; Anitha Thamizhmani (2008) Component Model and Architecture of Smart Devices for Elderly, IEEE Xplore. https://ieeexplore.ieee.org/abstract/document/4459143/
- ↑ Hongwei Huo ; Youzhi Xu ; Hairong Yan ; Saad Mubeen ; Hongke Zhang (2009). An Elderly Health Care System Using Wireless Sensor Networks at Home. IEEE Xplore. https://ieeexplore.ieee.org/abstract/document/5210943/
- ↑ Demir, E., Köseoğlu, E., Sokullu, R. and Şeker, B. (2017). Smart Home Assistant for Ambient Assisted Living of Elderly People with Dementia. Procedia Computer Science, [online] 113, pp.609-614. DOI: http://10.1016/j.procs.2017.08.302
- ↑ https://www.hifi.nl/artikel/24133/Het-slimme-zorghuis.html
- ↑ Prathiba Udupa, Siva S. Yellampalli, (2018) "Smart home for elder care using wireless sensor", Circuit World, Vol. 44 Issue: 2, pp.69-77, https://doi-org.dianus.libr.tue.nl/10.1108/CW-12-2017-0072
- ↑ Nagender Kumar Suryadevara ; Subhas Chandra Mukhopadhyay, (2012). Wireless Sensor Network Based Home Monitoring System for Wellness Determination of Elderly. IEEE Xplore, https://ieeexplore.ieee.org/abstract/document/6122042/
- ↑ Ramljak, M. (2017). Smart home medication reminder system. 2017 25th International Conference on Software, Telecommunications and Computer Networks (SoftCOM). [online] Available at: https://ieeexplore.ieee.org/document/8115585/
- ↑ Hsu, W., Kuo, C., Chang, W., Chang, J., Hou, Y., Lan, Y., Sung, T. and Yang, Y. (2010). A WSN smart medication system. Procedia Engineering, [online] 5, pp.588-591. Available at: https://doi.org/10.1016/j.proeng.2010.09.178
- ↑ Ishak, S.A., Zainol Abidin, H. and Muhamad, M. (2017). Improving medical adherence using smart medicine cabinet monitoring System. Indonesian Journal of Electrical Engineering and computer science. [online] Available at: https://pdfs.semanticscholar.org/2f4e/b089c34e049e24c572dedd6140c8ec3b97fa.pdf
- ↑ McCalley T., Mertens A. (2007) The Pet Plant: Developing an Inanimate Emotionally Interactive Tool for the Elderly. In: de Kort Y., IJsselsteijn W., Midden C., Eggen B., Fogg B.J. (eds) Persuasive Technology. PERSUASIVE 2007. Lecture Notes in Computer Science, vol 4744. Springer, Berlin, Heidelberg
- ↑ Seeyle M., Sen Gupta G., Bailey D. (2011) Low cost colour sensor for monitoring plant growth in laboratory. Instrumentation and Measurement Technology Conference. [online] Available at: https://ieeexplore.ieee.org/document/5944221/
- ↑ James J., Manu Maheshwar P. (2017) Plant growth monitoring system, with dynanic user-interface. Humanitarian Technology Conference. [online] Available at: https://ieeexplore.ieee.org/document/7906781/
- ↑ Neofox oxygen
- ↑ Bui N., Nguyen A., Nguyen P., Truong H., Ashok A., Dinh T., Deterding R., Vu T. (2017) PhO2: Smartphone based Blood Oxygen Level Measurement Systems using Near-IR and RED Wave-guided Light. Proceedings of the 15th ACM Conference on Embedded Network Sensor Systems. [online] Available at: http://mnslab.org/tamvu/paper/2017%20PhO2%20Nam%20Bui.pdf