Rogelio B Aniez Jr | University of the East (original) (raw)

Uploads

Conference Presentations by Rogelio B Aniez Jr

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property.

As today's technology progresses, the everyday life of people becomes easier.

As today’s technology progresses, the everyday life of people becomes easier. But, also, due to... more As today’s technology progresses, the everyday life of people becomes easier. But, also, due to technology, the environment and the climate is developing from time to time. Since Metro Manila is decades old and the establishments in the area are as old as the place, the plans for the establishments have not considered the possible problems that people are encountering today, specifically, flood. One of the major threats during floods is electric shock and electrical system faults due to flood water. With this, the proponents aimed to develop a flood warning safety device that incorporates SMS technology and android system. Having this innovative add-on to the technology that can help the consumer monitor and manage the flood warning device through their smart phones.
The project entitled “Development of a Flood Warning and Sensor Based Safety Device for Main Circuit Breaker with SMS Technology” is a system that can monitor the level or presence of flood water through the use of moisture sensors. The study also features four (4) ways of monitoring and controlling the flood warning device. This includes the moisture sensor, the user-friendly switches, through the use of GSM Module and an android application (B4A).
The proponents conducted various experiments in different locations inside the university. Also, components are taken under serious repetitive simulation for the accuracy and reliability of the prototype and the study itself.

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property.

Teaching Documents by Rogelio B Aniez Jr

During rainy season, household appliances and equipment suffers from the water cause by flash flo... more During rainy season, household appliances and equipment suffers from the water cause by flash floods. A solution to this problem is to cut the power down before water level reaches the outlet. The objective of this thesis is to design a device that protects electrical circuit in a residential house through a detection of flood. Most of the electrical circuits that are exposed to water are more likely to be replaced. The damage that the flood causes in the electrical circuit can be prevented by a device. This brings forth the idea of designing a flood control device and sensor for main circuit breaker. This project aimed on building a device and a sensor that can protect the electrical circuits when flood occurs. This project will address the problem of electrical circuit when flood rises. The function of this device is to trigger the circuit breaker when the flood reaches a certain distance from the outlets. This thesis includes the sensor that will gather data and the device that will trigger the circuit breaker. This brings forth the idea of designing a flood control device and sensor for main circuit breaker. This project aimed on building a device and a sensor that can protect the electrical circuits when flood occurs. The sensor should be place at a certain height in order to gather the data when the flood rises. When the flood reaches the certain height the sensor should send the signal to the device that will turn vi the circuit breaker on. This design will send an SMS to the owner or household to notify them about the status of the breaker.

Pulse Width Modulation variable speed drives are increasingly applied in many new industrial appl... more Pulse Width Modulation variable speed drives are increasingly applied in many new industrial applications that require superior performance. Recently, developments in power electronics and semiconductor technology have lead improvements in power electronic systems. The automatic control has played a vital role in the advance of engineering and science. Hands free applications became in demand due to its advantages against manual operations. With automatic controls, convenience as well as human safety has become a priority. Among its popular applications is the motor control where operations involve only a fraction of the rated speed. Using pulse width modulation, a motor can operate at any speed within its limit. The use of the drive ensures wider applications and better adaptation to changing conditions. This results to a more advance scope of motor control applications that may someday give way to a brighter future of automation. For this study, the use of motors for exhaust operations will be the main concern. Exhaust fans are commonly utilized in the industry especially in establishments and facilities where the temperature is regulated. This type of motor operation is critical in ensuring suitable working conditions for humans as well as other equipments. However, whether the exhaust is needed or not, it will continuously consume power. This can be avoided by either switching off the exhaust whenever it is not needed or have a means of regulating its operation.

Circuit breakers are essential part of an electrical system since it is responsible for the prote... more Circuit breakers are essential part of an electrical system since it is responsible for the protection of the electrical circuit from potential damages that may be caused from overloads, especially with starting currents of motors which may reach up to 500% of the rated current. However, the innovations on circuit breakers are neglected, since its essence would normally be seen only when overloads occur, in which case will be prevented by personnel in the first place.

The quality of artificial lighting is one of the most important influences on performance in the ... more The quality of artificial lighting is one of the most important influences on performance in the work place. However lighting is also the most obvious use of electricity. Any lighting left on when it is not needed is both costly and wasteful. Installing the right lighting controls for your premises can ensure that artificial lighting is provided only at the right time, in the right place and in the right quantity. Lighting controls vary from simple on/off switches to building wide, networked, control systems. They are equally appropriate to all sizes and types of buildings; it is just a question of choosing the most suitable solution. Better control of lighting can reduce costs by 30-50%, and significantly reduce carbon emissions at the same time, so long as the right decisions are made when selecting the lighting controls. Lighting controls offer further benefits than simply saving energy. Depending on the application they can improve comfort, reduce maintenance costs and impart greater flexibility to the use of a workspace. They need not be complicated or hard to understand; in fact they should always be easy to use and manage. Of course the extent of any lighting control project will have a major impact on its viability and cost. Sometimes it may be enough to make small changes to the existing switch wiring. However, simply automating the control of the lighting is not, in itself, an assurance that lighting electricity use will be reduced. It is the correct combination of user operation and automatic functions that will deliver real energy savings.

Technology has played a big role in the lives of people especially in the industries. In modern t... more Technology has played a big role in the lives of people especially in the industries. In modern times, technology develops and provides comfort and making lives easy for the society. With the continuous development of technology, it is imperative that safety must also be considered.

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property. Development of Trip Switch for Catastrophic Event Using Arduino Module 1 THE PROBLEM AND ITS BACKGROUND This chapter presents the background of the study, the objectives of the study, scope and limitation of the study, as well as the significance of the study.

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property.

As today's technology progresses, the everyday life of people becomes easier.

As today’s technology progresses, the everyday life of people becomes easier. But, also, due to... more As today’s technology progresses, the everyday life of people becomes easier. But, also, due to technology, the environment and the climate is developing from time to time. Since Metro Manila is decades old and the establishments in the area are as old as the place, the plans for the establishments have not considered the possible problems that people are encountering today, specifically, flood. One of the major threats during floods is electric shock and electrical system faults due to flood water. With this, the proponents aimed to develop a flood warning safety device that incorporates SMS technology and android system. Having this innovative add-on to the technology that can help the consumer monitor and manage the flood warning device through their smart phones.
The project entitled “Development of a Flood Warning and Sensor Based Safety Device for Main Circuit Breaker with SMS Technology” is a system that can monitor the level or presence of flood water through the use of moisture sensors. The study also features four (4) ways of monitoring and controlling the flood warning device. This includes the moisture sensor, the user-friendly switches, through the use of GSM Module and an android application (B4A).
The proponents conducted various experiments in different locations inside the university. Also, components are taken under serious repetitive simulation for the accuracy and reliability of the prototype and the study itself.

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property.

During rainy season, household appliances and equipment suffers from the water cause by flash flo... more During rainy season, household appliances and equipment suffers from the water cause by flash floods. A solution to this problem is to cut the power down before water level reaches the outlet. The objective of this thesis is to design a device that protects electrical circuit in a residential house through a detection of flood. Most of the electrical circuits that are exposed to water are more likely to be replaced. The damage that the flood causes in the electrical circuit can be prevented by a device. This brings forth the idea of designing a flood control device and sensor for main circuit breaker. This project aimed on building a device and a sensor that can protect the electrical circuits when flood occurs. This project will address the problem of electrical circuit when flood rises. The function of this device is to trigger the circuit breaker when the flood reaches a certain distance from the outlets. This thesis includes the sensor that will gather data and the device that will trigger the circuit breaker. This brings forth the idea of designing a flood control device and sensor for main circuit breaker. This project aimed on building a device and a sensor that can protect the electrical circuits when flood occurs. The sensor should be place at a certain height in order to gather the data when the flood rises. When the flood reaches the certain height the sensor should send the signal to the device that will turn vi the circuit breaker on. This design will send an SMS to the owner or household to notify them about the status of the breaker.

Pulse Width Modulation variable speed drives are increasingly applied in many new industrial appl... more Pulse Width Modulation variable speed drives are increasingly applied in many new industrial applications that require superior performance. Recently, developments in power electronics and semiconductor technology have lead improvements in power electronic systems. The automatic control has played a vital role in the advance of engineering and science. Hands free applications became in demand due to its advantages against manual operations. With automatic controls, convenience as well as human safety has become a priority. Among its popular applications is the motor control where operations involve only a fraction of the rated speed. Using pulse width modulation, a motor can operate at any speed within its limit. The use of the drive ensures wider applications and better adaptation to changing conditions. This results to a more advance scope of motor control applications that may someday give way to a brighter future of automation. For this study, the use of motors for exhaust operations will be the main concern. Exhaust fans are commonly utilized in the industry especially in establishments and facilities where the temperature is regulated. This type of motor operation is critical in ensuring suitable working conditions for humans as well as other equipments. However, whether the exhaust is needed or not, it will continuously consume power. This can be avoided by either switching off the exhaust whenever it is not needed or have a means of regulating its operation.

Circuit breakers are essential part of an electrical system since it is responsible for the prote... more Circuit breakers are essential part of an electrical system since it is responsible for the protection of the electrical circuit from potential damages that may be caused from overloads, especially with starting currents of motors which may reach up to 500% of the rated current. However, the innovations on circuit breakers are neglected, since its essence would normally be seen only when overloads occur, in which case will be prevented by personnel in the first place.

The quality of artificial lighting is one of the most important influences on performance in the ... more The quality of artificial lighting is one of the most important influences on performance in the work place. However lighting is also the most obvious use of electricity. Any lighting left on when it is not needed is both costly and wasteful. Installing the right lighting controls for your premises can ensure that artificial lighting is provided only at the right time, in the right place and in the right quantity. Lighting controls vary from simple on/off switches to building wide, networked, control systems. They are equally appropriate to all sizes and types of buildings; it is just a question of choosing the most suitable solution. Better control of lighting can reduce costs by 30-50%, and significantly reduce carbon emissions at the same time, so long as the right decisions are made when selecting the lighting controls. Lighting controls offer further benefits than simply saving energy. Depending on the application they can improve comfort, reduce maintenance costs and impart greater flexibility to the use of a workspace. They need not be complicated or hard to understand; in fact they should always be easy to use and manage. Of course the extent of any lighting control project will have a major impact on its viability and cost. Sometimes it may be enough to make small changes to the existing switch wiring. However, simply automating the control of the lighting is not, in itself, an assurance that lighting electricity use will be reduced. It is the correct combination of user operation and automatic functions that will deliver real energy savings.

Technology has played a big role in the lives of people especially in the industries. In modern t... more Technology has played a big role in the lives of people especially in the industries. In modern times, technology develops and provides comfort and making lives easy for the society. With the continuous development of technology, it is imperative that safety must also be considered.

Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that an... more Trip Switch for Catastrophic Event Using Arduino Module is designed to protect and ensure that any fire or electrocution can be avoided from electrical faults. The device uses TMP36GT for fire sensor, MQ-135 for gas and smoke sensor, HC-SR04 for flood sensor, and SW-200D Vibration Rolling Angle Sensor for an earthquake. It features a variety of indication outputs, including LEDs with five various colors for no detection and any catastrophe, as well as a buzzer that will sound when the sensors meet the program's requirements. The device uses a servo motor to cut off the supply of the MCB (Miniature Circuit Breaker) using the signal sent by Arduino Uno R3. In terms of tripping the MCB as its main purpose, test results showed that the prototype could achieve an average reaction time of 0.484 seconds for the gas sensor, 0.492 seconds for the fire sensor, 0.493 seconds for the smoke sensor, 0.487 seconds for the flood water sensor with 4.7 cm to 15.24 cm distance from the sensor and 0.497 seconds for the earthquake sensor with an intensity of 4.5 and above for it to activate. The device got 90% reliability based on the result from the four experiments conducted by the researchers, such as in gas leakage detection test, which has 80%, fire, and smoke detection test, which has 90%, flood detection test, which has 90% and earthquake detection test which has 100%, giving them 90% reliability based on functionality for the trip switch for the catastrophic event using Arduino module. This signifies that the prototype is fully functional and can be used as a device to decrease the risk of electrical threat during a disaster by disconnecting the power source from appliances and power outlets inside a residential house, ensuring the safety of people's lives and property. Development of Trip Switch for Catastrophic Event Using Arduino Module 1 THE PROBLEM AND ITS BACKGROUND This chapter presents the background of the study, the objectives of the study, scope and limitation of the study, as well as the significance of the study.