Automatic control for laboratory sterilization process based on arduino hardware

Arizaga, Juan Antonio; Calleja, Jorge de la; Hernández, R Jesús; Benitez, Antonio

doi:10.1109/conielecomp.2012.6189895

Cited by 11 publications

(5 citation statements)

References 3 publications

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“…The use of open source microcontrollers for data collection is a trend that has been increasing in popularity in the past few years. The utility of the Arduino based microcontroller is clearly evident and viable, with examples of their incorporation ranging from automated sterilization of laboratory equipment [ 7 ] to in situ measurements of phytoplankton florescence [ 8 ]. While generally reported as successful, insufficient resolution is the most commonly noted limitation of these electronics [ 8 , 9 , 10 ].…”

Section: Introductionmentioning

confidence: 99%

Development of a Low-Cost Arduino-Based Sonde for Coastal Applications

Lockridge

Dzwonkowski

Nelson

et al. 2016

Sensors

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This project addresses the need for an expansion in the monitoring of marine environments by providing a detailed description of a low cost, robust, user friendly sonde, built on Arduino Mega 2560 (Mega) and Arduino Uno (Uno) platforms. The sonde can be made without specialized tools or training and can be easily modified to meet individual application requirements. The platform allows for internal logging of multiple parameters of which conductivity, temperature, and GPS position are demonstrated. Two design configurations for different coastal hydrographic applications are highlighted to show the robust and versatile nature of this sensor platform. The initial sonde design was intended for use on a Lagrangian style surface drifter that recorded measurements of temperature; salinity; and position for a deployment duration of less than 24 h. Functional testing of the sensor consisted of a 55 h comparison with a regularly maintained water quality sensor (i.e., YSI 6600 sonde) in Mobile Bay, AL. The temperature and salinity data were highly correlated and had acceptable RMS errors of 0.154 °C and 1.35 psu for the environmental conditions. A second application using the sonde platform was designed for longer duration (~3–4 weeks); subsurface (1.5–4.0 m depths) deployment, moored to permanent structures. Design alterations reflected an emphasis on minimizing power consumption, which included the elimination of the GPS capabilities, increased battery capacity, and power-saving software modifications. The sonde designs presented serve as templates that will expand the hydrographic measurement capabilities of ocean scientists, students, and teachers.

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Section: Introductionmentioning

confidence: 99%

Development of a Low-Cost Arduino-Based Sonde for Coastal Applications

Lockridge

Dzwonkowski

Nelson

et al. 2016

Sensors

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“…Sayantani, Sridevi, and Pitchiah explained in their paper that the project's stated aim was to develop a wireless solution for indoor air quality monitoring using Java. The proposed system is to integrate environmental parameters like temperature, humidity, gaseous pollutants and aerosol/particulate matter into a controlling HVAC (Heating, Ventilation, and Air Conditioning) system in a smart building [4].…”

Section: Related Workmentioning

confidence: 99%

Implementation of Monitoring System for Air Quality using Raspberry PI: Experimental Study

Alkandari¹,

Moein²

2018

IJEECS

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<span lang="EN-US">Because of rising dependency on fossil fuels, and rising amounts of toxic gases in the environment, it found that people are in need of a way to ensure the safety specifically those that live in cities. An approach is suggested in this paper, that is economical yet affords good detection, and can give accurate readings that can be analyzed and manipulated, and can even provide warnings through sending emails. These requirements are found in the Raspberry Pi when it hooked up to the sensors. This paper was focused on few dangerous gases such as Carbon Monoxide (CO), Nitrogen Dioxide (NO2) and other gases. The results in this paper showed that some gases, specifically CO, may be a problem in Kuwait as it is always slightly below the warning level. The success with the Raspberry Pi and the results were encouraging to open the way for much improvement in the future.</span>

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“…This microcontroller is using the Atmega328 chip as its processor and assembles through C/C++ languages [5]. In addition, a student card, known as a passive RFID card is used in the system testing because it is more suitable and less expensive.…”

Section: Related Workmentioning

confidence: 99%

“…Arduino Uno board has 14 digital input/output pins, 16MHz crystal osillator, 6 analog inputs, a power jack, a USB connection, an ICSP header and a reset Button [4]. The assemble language is C/C++ and it's also have many libraries that help to write the program more easily [5]. Figure 6 shows block diagram of LAS hardware system.…”

Section: B Hardware Designmentioning

confidence: 99%

LAS: Web-based laboratory attendance system by integrating RFID-ARDUINO technology

Arbain

Nordin

Isa

et al. 2014

2014 2nd International Conference on Electrical, Electronics and System Engineering (ICEESE)

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Managing student's attendance during laboratories session is tedious due to the large number of students, and this problem is worsen if laboratories session is conducted in parallel due to the lack of resources and time. Hence, this paper is aimed to overcome this problem by using RFID-ARDUINO approach in web-based laboratories attendance system. The propose system will assist the lab instructor to record and manage the student attendance automatically. In addition, the system also provides an evaluation section for lab instructor to key-in and manage the student's experiment marks. The system is divided into two parts, which are the web-based development and system integration with the RFID-ARDUINO technology. An Arduino Uno microcontroller board is use as the hardware platform. Meanwhile, the web design is developed in Adobe Dreamweaver and Adobe Fireworks and deploy in XAMPP application server. Visual Basic scripting is use to integrate between hardware and SQL database. Upon testing, Web-based Laboratory Attendance System (LAS) is successfully facilitated the students' attendance and laboratory management on evaluation of student performance for particular experiment.

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Automatic control for laboratory sterilization process based on arduino hardware

Cited by 11 publications

References 3 publications

Development of a Low-Cost Arduino-Based Sonde for Coastal Applications

Development of a Low-Cost Arduino-Based Sonde for Coastal Applications

Implementation of Monitoring System for Air Quality using Raspberry PI: Experimental Study

LAS: Web-based laboratory attendance system by integrating RFID-ARDUINO technology

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