• Corpus ID: 33544617

Development of Energy Saving Smart Home Prototype

@inproceedings{Panna2013DevelopmentOE,
  title={Development of Energy Saving Smart Home Prototype},
  author={R. Panna and Chantana Chantrapornchai},
  year={2013}
}
In this work, we are interested in developing a prototype of smart home for energy saving. The prototype uses a microcontroller PIC18F458 with various sensors such as a temperature sensor, infrared sensor as well as actuators to control the lights, air conditions, as well as the fans appropriately etc. It detects the number of people in a room, adjusts a proper temperature for the air condition, turns on the fan if needed, turns on and off the light appropriately. The simple measurement shows… 

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References

SHOWING 1-10 OF 12 REFERENCES

E-Wizard Toolkit: A Prototype Tool for Concurrent and Embedded System Design

TLDR
A development tool to help design concurrent embedded fuzzy systems, called E-Fuzz-Wizard, which has a visual interface which allows the user to specify the requirement of fuzzy systems in terms of the fuzzy set characteristics, inference methods, rules and defuzzification method.

Arithmetic Operations and Their Energy Consumption in the Nios II Embedded Processor

TLDR
Results show significant energy savings and higher performance in arithmetic operations when available arithmetic hardware suitable for these operations is included and when the utilization of resources is taken into account.

Run-time Energy Consumption Estimation Based on Workload in Server Systems

TLDR
A linear regression model is developed that relates processor power, bus activity, and system ambient temperatures into real-time predictions of the power consumption of long jobs and as result controlling their thermal impact.

Cycle-Accurate Energy Measurement and Characterization of FPGAs

TLDR
This paper introduces an in-house cycle-accurate FPGA energy measurement tool and energy characterization schemes spanning low-level to high-level design and offers all the capabilities necessary to investigate the energy consumption of FPGAs for operation-based energy characterization.

Performance and energy benefits of instruction set extensions in an FPGA soft core

TLDR
A soft-processor customization framework that takes an input 'C' application and realizes a customized processor capturing the microarchitectural details of its interface with the specialized unit in spite of incurring communication overheads in the ISE implementation is presented.

How much electricity do household items use?

  • http://michaelbluejay.com/electricity/ howmuch.html
  • 2013

Chompooming, “The Control of lights using fuzzy logic in the building

  • (in Thai),
  • 2008

Development of the fan speed automatically adaptive to environments”, (in Thai)

  • Faculty of Material and Energy, KMUTT, Thailand,
  • 2001

Sukwan, “Energy preservation using air condition together with fans”, (in Thai), Faculty of Education

  • Srinakarinwiroj University,
  • 2009

Development of the fan speed automatically adaptive to environments ”

  • 2001