A SONAR-Based Water Level Monitoring System: An Experimental Design

Amusa, K. Akinwale; Opeodu, F. A.; Adewusi, Adeoluwawale; Adewunmi, Timothy O.

doi:10.46792/fuoyejet.v3i2.211

Cited by 2 publications

(1 citation statement)

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“…Normal ultrasonic sensors and ATMEL microcontroller were used to construct a foldable smart stick with rechargeable features (Kang, Kim, & Moon, 2001). This was dependent on the principal property of sound's reflection as a form of wave (Amusa et al, 2018). Frenkel (2008) used a pulse of ultrasound range of 21 KHz to 50 KHz which hit a hard surface to generate echo pulses.…”

Section: *Corresponding Authormentioning

confidence: 99%

Development of Obstacle and Pit-Detecting Ultrasonic Walking Stick for the Blind

et al. 2019

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This project focused on improving mobility for a blind person by creating an obstacle and pit detecting walking stick using ultrasonic sensors. The project comprised of both hardware and software. The hardware consists of ultrasonic sensors, buzzers and a microcontroller, while the software consists of Arduino Integrated Development Environment (Arduino IDE), which was used to program the microcontroller. A Polyvinyl Chloride (PVC) casing was used to house the hardware components. The ultrasonic sensor that detects obstacles was programmed to detect obstacles at a distance of 100 cm or below and causes the buzzer to sound so as to alert the blind person. Another ultrasonic sensor was programmed to identify pit at a depression of 18 cm and above. This stick was tested to detect obstacles by 80 different blindfolded individuals within a room with different objects placed at different positions. Results showed that the percentage reduction of collision rate when comparing the developed ultrasonic walking stick to a normal white cane is 90.1%. This shows that the ultrasonic walking stick is reliable for domestic use by a blind person. Keywords— Arduino, ATmega328 Microcontroller, Blind walking stick, Mobility aid, Smart cane, Ultrasonic sensor.

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Section: *Corresponding Authormentioning

confidence: 99%

Development of Obstacle and Pit-Detecting Ultrasonic Walking Stick for the Blind

et al. 2019

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A Review of Practice and Implementation of the Internet of Things (IoT) for Smallholder Agriculture

et al. 2020

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In order to feed a growing global population projected to increase to 9 billion by 2050, food production will need to increase from its current level. The bulk of this growth will need to come from smallholder farmers who rely on generational knowledge in their farming practices and who live in locations where weather patterns and seasons are becoming less predictable due to climate change. The expansion of internet-connected devices is increasing opportunities to apply digital tools and services on smallholder farms, including monitoring soil and plants in horticulture, water quality in aquaculture, and ambient environments in greenhouses. In combination with other food security efforts, internet of things (IoT)-enabled precision smallholder farming has the potential to improve livelihoods and accelerate low- and middle-income countries’ journey to self-reliance. Using a combination of interviews, surveys and site visits to gather information, this research presents a review of the current state of the IoT for on-farm measurement, cases of successful IoT implementation in low- and middle-income countries, challenges associated with implementing the IoT on smallholder farms, and recommendations for practitioners.

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A SONAR-Based Water Level Monitoring System: An Experimental Design

Cited by 2 publications

References 5 publications

Development of Obstacle and Pit-Detecting Ultrasonic Walking Stick for the Blind

Development of Obstacle and Pit-Detecting Ultrasonic Walking Stick for the Blind

A Review of Practice and Implementation of the Internet of Things (IoT) for Smallholder Agriculture

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