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Determinants of customer satisfaction on banquet services in hotels in kisii town - hospitality and tourism research project
| Institution | Kisii National Polytechnic |
| Course | Hospitality and tour... |
| Year | 3rd Year |
| Semester | Unknown |
| Posted By | MAKORI KERECHA |
| File Type | docx |
| Pages | |
| File Size | 202.95 KB |
| Views | 530 |
| Downloads | 0 |
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Description
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This study sought to analyse determinants of customer satisfaction of banquet services in Kisii Town, Kenya. The drop in influx of foreign and domestic tourists seeking for hospitality services in Kisii State has forced hoteliers into competing for banquet events as a means of remaining in business. Customers are the focus of every successful service operations; it is important that banquet managers know what customers want in banquet service operations in order to stop them from switching to other providers and remaining loyal to a provider. The objectives of the study were: to determine the relationship between socio-economic background of customers and their satisfaction of banquet services offered in Kisii Town, to examine the impact of hotel location on customer satisfaction of the banquet service, to assess the effect of price on customer satisfaction, and to investigate the effect of service quality on customer satisfaction of banquet services offered in hotels in Kisii Town. The study adopted descriptive research survey design. Quantitative methods were used to collect primary data. Fisher’s formula was used to select a sample population of this study. The study targeted a population of 391, which comprised of the clients that sponsored the banquet functions and attendees of banquet services in hotels in Kisii Town. The study sampled 50% of the hotels whereby purposive sampling technique was employed to select 17 hotels representing three types of hotel classifications; ranging from ‘A’ to ‘C’ category. In addition purposive sampling method was used to select clients who booked for banquet events, while probability sampling techniques were used to select the attendees who participated in the study. The study used structured questionnaires to collect primary data from the respondents. Descriptive statistical analysis such as standard deviation, mean ranking was applied to describe the study variables in line with the study objectives. Gap analysis using the service quality measurement instrument (SERVQUAL) developed by Parasuraman, Zeithml and Berry (1988) was used to determine the customer satisfaction in relation to quality of service rendered. Spearman Rank Order Correlation (rho) and multiple regression analysis were used to assess the relationship between banquet service quality and customer satisfaction. The analysed data was presented in tables and charts to represent quantitative findings. The study findings were summarised and conclusion made in an attempt to describe the research objectives. The study, in summary, found that the demographic characteristics, price of the banquet services, location and tangibility aspect of SERVQUAL did not influence customer satisfaction. However, reliability, responsiveness, assurance and empathy dimensions of SERVQUAL influenced the customer satisfaction on quality service. The study recommends that hotels should develop standard operations procedures as a measure of ensuring coordinated service delivery to address the reliability, responsiveness, apathy and empathy dimension aspect of the service quality which the study revealed to be lacking in the service delivery process.
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Design and implementation of smart extinguishing system for gas cooking room project report- electrical telecommunication option
This research focuses on developing a smart fire extinguishing system for gas cooking rooms to enhance household safety. The system is designed to detect gas leaks and fires, and automatically extinguish them before they escalate. It employs gas sensors, smoke detectors, a GSM (Global System for Mobile Communications) for notification, and automatic extinguishing mechanisms.
Key components of the system include gas sensors that detect leaks, smoke detectors that identify fire, GSM (Global System for Mobile Communications) technology is incorporated to send realtime alerts to occupants' mobile phones and emergency services, ensuring immediate awareness and response, and an automatic response system that activates water sprinklers or chemical extinguishers. The system also alerts occupants and emergency services.
Tests show that the system quickly detects hazards and responds in real-time, significantly reducing response times and effectively preventing gas cooking fires. This innovative solution enhances domestic safety and can be integrated with smart home technologies for improved risk management.
In conclusion, the smart fire extinguishing system for gas cooking rooms offers a reliable, automatic response to fire hazards, improving household safety and providing a foundation for future advancements in smart home safety solutions.
1293 Views
0 Downloads
513.34 KB
Design and implementation of Smart home fire fighting system project report- electrical telecommunication option
My project is designed to ensure security based on a Smart home firefighting system. This idea comes after observing some problems and risks caused by fire. Therefore, a smart home firefighting system was designed as one of the solutions needed for building protection because it uses some components to do it tasks based on its design and implementation composed of a smoke sensor used to sense the smoke in the serve room
The project is used to notify user about the fire accident at home and correct those fire by using water pump in avoiding the absence of people and people’s goods. Otherwise, user can receive the short message about their house wherever they are using mobile phone. It is designed to reduce the risk of more severe fire damage when the fire broke and make it minimum. With this system, it can help users in many aspects, especially to notify the user to make a call and send a message to user, so you can take early steps that can overcome the blaze spread rapidly
The hardware implementation in this project is a smoke sensor, GSM, buzzer, microcontroller and water pump. The result from this project is useful to be implemented in home and industrial to help in the risk of death and injuries furthermore to avoid the losses that need to be borne by the victims.
1343 Views
0 Downloads
219.62 KB
Design and implementation of smart livestock monitoring system research project- electrical telecommunication option
modern agriculture, the integration of technology is becoming increasingly pivotal for enhancing livestock security and efficiency. This project, titled “Design and Implement Smart livestock monitoring system,” aims to develop a comprehensive solution utilizing three ESP32CAMs and three ultrasonic sensors to safeguard agricultural assets and improve real-time monitoring. The core objectives of this project are twofold: first, to detect and alert the presence of people or other animals approaching the farm, and second, to provide farmers with instant video access for remote monitoring and assessment. The system operates by strategically placing ESP32CAMs at key points within the farm, equipped with ultrasonic sensors for precise detection. Upon detecting any potential intrusion, the system triggers an immediate SMS notification to the farmer, allowing for rapid response to potential threats.
Furthermore, the ESP32-CAMs continuously capture and store video footage, which can be accessed remotely by the farmer at any time. This feature not only aids in security but also serves as a valuable tool for farm management and surveillance. The " Design and Implement Smart livestock Monitoring System” represents an innovative and cost-effective solution that enhances livestock security, reduces potential losses, and empowers farmers with real-time insights into their agricultural operations. By leveraging the capabilities of ESP32-CAMs and ultrasonic sensors, this project contributes to the modernization of agriculture, ensuring its sustainability and productivity.
420 Views
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1.12 MB
Design and implementation of three phase motor using single phase supply and capacitor project report- electrical telecommunication option
The design and implementation of a 3-phase motor using a single-phase power supply with the aid of a capacitor addresses a key challenge in electrical motor systems, particularly in areas where 3-phase power is unavailable or impractical. 3-phase motors are known for their efficiency, reliability, and smooth operation, which makes them ideal for industrial applications. However, many environments only provide single-phase power, necessitating conversion techniques to operate these motors effectively.
This project explores the development of a phase conversion method using a start and run capacitor to create the required phase shift that allows a 3-phase motor to run on a singlephase power source. Capacitors are used to generate an artificial phase, thereby creating a pseudo-3-phase system. The design focuses on the optimal selection of capacitors to ensure the balance between phases, improve motor efficiency, and reduce vibration and noise. This approach is both cost-effective and practical for small to medium-scale motor applications.
The implementation involved the detailed analysis of the motor's electrical requirements, the calculation of capacitance values necessary to achieve proper phase shifting, and the design of the connection circuitry. Testing and performance evaluation showed that while the 3-phase motor operating with a single-phase input through a capacitor arrangement does not achieve the full performance of a true 3-phase power system, it is still adequate for many applications where high power or precision control is not critical.
This system provides a practical and affordable solution for running 3-phase motors in environments constrained by single-phase power supplies, making it a viable option for industries and small businesses like development country as Rwanda.
1374 Views
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57.01 KB
DESIGN AND IMPLEMENTATION OF THREE PHASE MOTOR PROJECT REPORT- ELECTRICAL TELECOMMUNICATION OPTION
The design and implementation of a 3-phase motor using a single-phase power supply with the aid of a capacitor addresses a key challenge in electrical motor systems, particularly in areas where 3-phase power is unavailable or impractical. 3-phase motors are known for their efficiency, reliability, and smooth operation, which makes them ideal for industrial applications. However, many environments only provide single-phase power, necessitating conversion techniques to operate these motors effectively.
This project explores the development of a phase conversion method using a start and run capacitor to create the required phase shift that allows a 3-phase motor to run on a single-phase power source. Capacitors are used to generate an artificial phase, thereby creating a pseudo-3phase system. The design focuses on the optimal selection of capacitors to ensure the balance between phases, improve motor efficiency, and reduce vibration and noise. This approach is both cost-effective and practical for small to medium-scale motor applications.
The implementation involved the detailed analysis of the motor's electrical requirements, the calculation of capacitance values necessary to achieve proper phase shifting, and the design of the connection circuitry. Testing and performance evaluation showed that while the 3-phase motor operating with a single-phase input through a capacitor arrangement does not achieve the full performance of a true 3-phase power system, it is still adequate for many applications where high power or precision control is not critical.
This system provides a practical and affordable solution for running 3-phase motors in environments constrained by single-phase power supplies, making it a viable option for industries and small businesses like development country
1185 Views
0 Downloads
284.83 KB
DESIGN AND IMPLEMENTATION OF TRANSMISSION LINE -ELECTRICAL TELECOMMUNICATION OPTION
Abstract Transmission line is the most important part of the power system. Transmission lines a principal amount of power. the major role of a transmission line is to transmit electric power from the source area to the distribution network. The exploded between limited production, and a tremendous claim has grown the focus on minimizing power losses. Losses like transmission loss and also conjecture factors as like as physical losses to various technical losses, another thing is the primary factor it has a reactive power and voltage deviation are momentous in the long-range transmission power line. In essentially, fault analysis is a very focusing issue in power system engineering to clear fault in short time and re-establish power system as quickly as possible on very minimum interruption. However, the fault detection that interrupts the transmission line is itself challenging task to investigate fault as well as improving the reliability of the system. The transmission line is susceptible given all parameters that connect the whole power system. This paper presents a review of transmission line fault detection.
1287 Views
0 Downloads
991.49 KB
IMPLEMENTATION OF A DC MICROGRID PROJECT REPORT- ELECTRICAL TELECOMMUNICATION OPTION
This project presents a comprehensive study on DC microgrids, emphasizing their significance, design, and implementation in modern energy systems. As the demand for efficient, reliable, and sustainable energy solutions grows, DC microgrids emerge as a promising alternative to traditional AC grids. This book explores the fundamental concepts and benefits of DC microgrids, including their ability to enhance energy efficiency, integrate renewable energy sources, and improve power quality. The proposal outlines a systematic approach to designing a DC microgrid, incorporating key components such as energy storage systems, power converters, and control strategies. By examining case studies and current advancements in the field, this book provides a detailed framework for the successful deployment and optimization of DC microgrids. The insights offered aim to guide researchers, engineers, and policymakers in advancing the development of resilient and innovative energy infrastructure.
The increasing demand for reliable and sustainable energy solutions has led to significant advancements in microgrid technology. Unlike traditional AC grids, DC microgrids offer several advantages such as reduced conversion losses, improved system stability, and enhanced compatibility with renewable energy sources. This book aims to provide a comprehensive overview of the design, implementation, and management of DC microgrids.
1341 Views
0 Downloads
578.05 KB
DESIGN OF A SMART RUNWAY ILLUMINATION RESEARCH PROJECT REPORT- ELECTRICAL TELECOMMUNICATION OPTION
There is always a need to improve technology for safety, efficiency, and reliability in aviation and in operating airports. This is under this project on " Implementation of a Smart Runway Illumination: Radar-Controlled Lighting System" that has noted most of the limitations mentioned against the traditional runway lighting systems. This research mainly aims to develop an intelligent runway lighting system that can use real-time radar information in combination with highintensity LED light and smart control algorithms to adapt to oncoming aircraft information, including its position, speed, and direction, and environmental factors. It consists of advanced LED and radar technologies, with a developed smart control algorithm that allows runway illumination to be adjusted in real-time, optimizing lighting conditions for aircraft at landing or take-off.
Research has found that the smart runway illumination system not only deals with the drawbacks of the existing systems but also helps in overcoming high-energy consumption. The integration of radar information with such an LED lighting system by the use of intelligent algorithms is a significantly more reliable and efficient lighting system, ensuring the overall safety of the airport's operation. This paper is of high relevance in proposing a possible solution toward the operational constraints of the conventional runway lighting systems, with further potential to save energy and improve safety. Installation of this system in airports to enhance operational efficiency and safety is recommended. Future work that is carried out to study the integration of other environmental data and to free this system for other uses in the airport would greatly beneficial the airport operations. Availing such a remarkable contribution to the aviation
360 Views
0 Downloads
1 MB
DESIGN OF AUTOMETED GAS LEAK DETECTION SYSTEM- PROJECT REPORT ELECTRICAL TELECOMMUNICATION OPTION
This project presents the design and implementation of automated Gas leak detector and ventilation system, aimed at enhancing safety in environments where LPG is used. The system utilizes an Arduino Uno microcontroller, an MQ2 gas sensor, an SG90 micro servo motor, a fan, and a buzzer to detect gas leaks, alert users, and initiate a ventilation process. The MQ2 sensor detects LPG concentrations and triggers the fan and buzzer when dangerous levels are detected, ensuring timely mitigation of potential hazards.
Key findings from the system's evaluation showed that the gas detection mechanism was effective, with the MQ2 sensor detecting LPG concentrations as low as 500 ppm and triggering the fan and alarm at 1000 ppm. The system demonstrated a response time of less than 5 seconds, and the ventilation system reduced gas concentration by 50% within the first 5 minutes of operation. The components used, including the servo motor and fan, functioned reliably throughout the testing phase.
The project successfully meets its objective of responsive, and reliable LPG leak detection system. However, improvements such as enhanced sensor sensitivity, integration of wireless communication for remote monitoring, and the addition of features like automatic gas supply shutdown are recommended for future work to broaden the system’s applicability and functionality.
1375 Views
0 Downloads
1.13 MB
DESIGN OF SMART HOME FIRE FIGHTING PROJECT REPORT- ELECTRICAL TELECOMMUNICATION OPTION
My project is designed to ensure security based on a Smart home firefighting system. This idea comes after observing some problems and risks caused by fire. Therefore, a smart home firefighting system was designed as one of the solutions needed for building protection because it uses some components to do it tasks based on its design and implementation composed of a smoke sensor used to sense the smoke in the serve room
The project is used to notify user about the fire accident at home and correct those fire by using water pump in avoiding the absence of people and people’s goods. Otherwise, user can receive the short message about their house wherever they are using mobile phone. It is designed to reduce the risk of more severe fire damage when the fire broke and make it minimum. With this system, it can help users in many aspects, especially to notify the user to make a call and send a message to user, so you can take early steps that can overcome the blaze spread rapidly
The hardware implementation in this project is a smoke sensor, GSM, buzzer, microcontroller and water pump. The result from this project is useful to be implemented in home and industrial to help in the risk of death and injuries furthermore to avoid the losses that need to be borne by the victims.
1212 Views
0 Downloads
414.51 KB