[Skip to Content]
    • Covenant University
  • About Us
  • Admissions
  • Colleges
  • Library
  • News
  • Research
  • Covenant Journals
  • Covenant Documents
  • Conferences 2020
  • OER
  • Alumni
  • ICAI 2020
  • My Account
  • Webmail
  • Profiles
Typical Antenna configurations for digital oilfield implementation.
  • Home
  • »
  • Profiles
  • »
  • Idachaba Francis
  • »
  • Typical Antenna configurations for digital oilfield implementa...

Typical Antenna configurations for digital oilfield implementation.

~ A780db5fb37bab04940a4ebeb74d13ca.200x200
Antennas play a very pivotal role in the development and advancement of digital oil fields. They provide the last mile communication link to the field locations and thus must be properly sized to ensure the link availability and reliability.
 
Published at Fourth International conference on Engineering Research and Development ICERD 2012. Nigeria
Published in 2012
 
Download 185.90 kB
 
 
 
Idachaba F.E
Idachaba Francis
 
Other publications by this author (view profile)
 
 
Remote Operations Implementation: A Tool for Improved HSE Management
 
Development of a software solution for solar-PV power system sizing and monitoring
 
Design and Development of Student Data Retrieval System via GSM.
 
Optimal Antenna configurations for digital oilfield implementation
 
Review of Remote Terminal Units (RTU) and Gateways for Digital Oilfield Deployments
 
Current Trends and Technologies in the Oil and Gas Industry.
 
Robust E-Health Communication Architecture for Rural Communities in Developing Countries.
 
Rural Mobile Telephony: A VSAT (Satellite) Based Approach
 
Analysis of a Weaver, Hartley and SAW- filter based image reject architectures for radio receiver design
 
Low Power Transceiver based Approach to Extending Mobile Communication to the Rural Areas of Nigeria.
 
Design of a GSM phone booth for low cost rural Communication
 
Intelligent Traffic monitoring and hybrid energy systems for BTS OPEX reduction.
 
Remote Operation of Oil and gas production Installations in the Niger delta.
 
Design of a GPS/GSM based tracker for the location of stolen items and kidnapped or missing persons in Nigeria.
 
Telecommunication Cost Reduction in Nigeria through Infrastructure sharing.
 
Design of INTEL 8751 microcontroller based system for temperature monitoring and control of thermal process.
 
Design of a Remote GSM based Datacentre Monitor.
 
Strategies for Low Cost Rural Telephony.
 
RFID Laptop Monitoring and Management System
 
Broadcast Television: A Tool for Rural E-Learning Deployment.
 
Project Management, Local Content and Value Delivery.
 
Algorithm for Source Mobile Identification and Deactivation in SMS triggered Improvised Explosive Devices.
 
Design of an AUV Deployed Pipeline Leak Containment system for offshore Pipeline Leaks
 
Design of an Autonomous Pipeline Surface Inspection Robot for Offshore Pipeline Monitoring
 
Unmanned Air Vehicle (UAV) deployment for Wide Area Pipeline Monitoring
 
The Flipped Classroom and Open Courseware: Tools for Improving the Quality of the Nigerian Graduate.
 
Fiber Optic based Pipeline Oil and Gas Leak and Intruder Detection System with Security Intervention Plan
 
Design of an Inline Power Supply System for Remote Oil and Gas Installations.
 
The Flipped Classroom and Open Courseware: Tools for Improving the Quality of the Nigerian Graduate.
 
Renewable power supply option for Smartfields implementation in oil and gas production installations in the Niger Delta.
 
Total Asset Surveillance & Management.
 
Development of a communication architecture for E-Health service delivery to rural communities in developing countries
 
A Review of the Fingerprint, Speaker Recognition, Face Recognition and Iris Recognition based Biometric identification technologies.
 
Rural Mobile Telephony: A VSAT (Satellite) based Approach.
 
Comparative analysis of a weaver, Hartley and saw- filter based, image reject architectures for radio receiver design.
 
Capacity Building Strategies for the Nigeria Educational System
 
Design of a GPS/GSM based Tracker for the location of stolen items and kidnapped or missing persons in Nigeria.
 
Design of a GPS/GSM based Tracker for the location of stolen items and kidnapped or missing persons in Nigeria.
 
Implementation of a Low Power Sensor using the 1N4148 signal diodeImplementation of a Low Power Sensor using the 1N4148 signal diode
 
Design of a GSM phone booth for rural mobile communication.
  •  
     
  • ©2021 Covenant University | Sitemap | Contact Us
    •  
    •  
    •  
    •  
    •  
    •  
    •