pure practical telecoms/ict training in nigeria
DESCRIPTION
We offer Pure Practical’s in telecoms/ICT training with live Equipments that will help you in getting the necessary experience in getting any Telecoms/ICT jobs in Nigeria. Microwave radio installation, planning and commissioning with live microwave radios (TDM/IP Ethernet/Hybrid), Fiber-optics Implementation, planning and cable splicing with live fusion Splicers and optical devices. CCNA/CCNP with live routers, Switches, Pix firewalls etc.BTS installation, configuration and commissioning with live BTS equipments.DWDM/OSN with live Optical Multiplexers.We believe in 100% Practicals,we are not like other training outfit without the real equipment.Come and See for yourself before you even register. logon to www.neonetwirelessafrica.com.ng for more info.TRANSCRIPT
PROFILE:
neonetwireless Training and Consulting ServicesSpecialized in Telecoms Training, Wireless Training, LTE Training, IPv4 Training(cisco), MPLS Training, fiber-optics Training, DWDM/OSN Training,IP Cameras/CCTV training, Wireless Engineering and RF Engineering Bootcamps Visit us at www.neonetwirelessafrica.com.ng for more info. We have the following equipments for Telecoms/ICT Training:
3G / 4G Network Solutions: Ericsson RBS 2206 BTS
Ethernet Networks: Ubiquity IP Ethernet radios,Cisco Multilayer Switches 3550,3750,3560 etc
IP Cameras: Sony, Panasonic, Stardots, Alinking, 4XEM etc
LTE Solutions: AT&T, Alcatel and nokia-siemens
Mobile Backhaul: Ericsson Mini-link, Huawei RTN series, Harris Stratex, Ceragon fibeair, Nera and Nokia-Siemens.
Optical Networking:Huawei optix 1500,Metro 1000 and Tejas multiplexers.
WAN / LAN / VLAN: Cisco routers like 2800 series,2600 series,1700 series
Below you can See Images of My Past training and course Outlines:
DURATION: 2 weeksModule 1 GSM - ARCHITECTURE, PROTOCOLS AND SERVICES
* Cellular Communications Systems* Practical Aspects of GSM* Functions of GSM Network Components* Hardware and Software Configurations* GSM Protocols* GSM Call FlowModule 2 MICROWAVE RADIO FREQUENCY (RF) PLANNING* Antenna Design and RF* New Site Planning* Frequency Planning and Neighbor Optimization* Planning Tools like PATHLOSS 4.0 AND RADIO MOBILE* Network Dimensioning and Traffic Prediction* Coverage/Capacity Planning and Dimensioning* Field StudyModule 3 TRANSMISSION TECHNOLOGIES* SDH and PDH Systems* Microwave Alignment Procedures* Understanding Basic End Equipments (Multiplexers/Demultiplexers)
Module 4 FIBER-OPTIC (IMPLEMENTATION, SPLICING AND COMMISSIONING)
DAY 1
Regulations and Health & Safety
DAY 2
Wavelength, dB & dBm, Loss & Refractive Index
DAY 3
Emitters, Detectors & WDM
DAY 4
Fiber Elements, Physics & Dispersion
DAY 5
Installation, Preparation & Considerations
DAY 6
Fibre Tooling and Preparation
DAY 7
Fibre Types & Standards
DAY 8 Fibre Cable Elements
DAY 9
Enclosures, ODF’s & Patch Panels
DAY 10 Splicing & Cleaving
DAY 11 Connectors, Adapters & Polish
DAY 12
Testers, Testing, Fault Finding & Commissioning
Module 5 CCNA (640-802)
DAY 1
InternetworkingInternetworking BasicsInternetworking ModelsThe OSI Reference Model
DAY 2
Review of Ethernet Networking and Data Encapsulation
Ethernet Networks in ReviewEthernet CablingData EncapsulationThe Cisco Three-Layer Hierarchical Model
DAY 3
Introduction to TCP/IPIntroducing TCP/IPTCP/IP and the DOD ModelIP AddressingIPv4 Address Types
DAY 4Easy SubnettingSubnetting Basics
Variable Length Subnet Masks (VLSMs), Summarization, and TroubleshootingTCP/IPVariable Length Subnet Masks (VLSMs)SummarizationTroubleshooting IP Addressing
DAY 5
Cisco’s Internetworking Operating System (IOS)The IOS User InterfaceCommand-Line Interface (CLI)Router and Switch Administrative ConfigurationsRouter InterfacesViewing, Saving, and Erasing Configurations
DAY 6
Managing a Cisco InternetworkThe Internal Components of a Cisco RouterThe Router Boot SequenceManaging Configuration RegisterBacking Up and Restoring the Cisco IOSBacking Up and Restoring the Cisco ConfigurationUsing Cisco Discovery Protocol (CDP)Using TelnetResolving HostnamesChecking Network Connectivity and Troubleshooting
DAY 7
IP RoutingRouting BasicsThe IP Routing ProcessConfiguring IP Routing in Our Network
Dynamic RoutingDistance-Vector Routing ProtocolsRouting Information Protocol (RIP)Verifying Your Configurations
DAY 8
Enhanced IGRP (EIGRP) and Open Shortest Path First (OSPF)EIGRP Features and OperationUsing EIGRP to Support Large NetworksConfiguring EIGRPLoad Balancing with EIGRPVerifying EIGRPOpen Shortest Path First (OSPF) BasicsConfiguring OSPFVerifying OSPF ConfigurationOSPF DR and BDR ElectionsOSPF and Loopback InterfacesTroubleshooting OSPFConfiguring EIGRP and OSPF Summary Routes
DAY 9
Layer 2 Switching and Spanning Tree Protocol (STP)Before Layer 2 SwitchingSwitching ServicesSpanning Tree Protocol (STP)Configuring Catalyst Switches
DAY 10
Virtual LANs (VLANs)VLAN BasicsVLAN MembershipsIdentifying VLANsVLAN Trunking Protocol (VTP)Routing between VLANsConfiguring VLANsConfiguring VTPTelephony: Configuring Voice VLANs
DAY 11
SecurityPerimeter, Firewall, and Internal RoutersIntroduction to Access ListsStandard Access ListsExtended Access ListsTurning Off and Configuring Network ServicesMonitoring Access Lists
DAY 12
Network Address Translation (NAT)When Do We Use NAT?Types of Network Address TranslationNAT NamesHow NAT WorksTesting and Troubleshooting NAT
DAY 13
Cisco’s Wireless TechnologiesIntroduction to Wireless TechnologyBasic Wireless DevicesWireless RegulationsWireless TopologiesWireless Security
DAY 14
Internet Protocol Version 6 (IPv6)Why Do We Need IPv6?The Benefits and Uses of IPv6IPv6 Addressing and ExpressionsHow IPv6 Works in an InternetworkIPv6 Routing ProtocolsMigrating to IPv6
DAY 15
Wide Area NetworksIntroduction to Wide Area NetworksCable and DSLCabling the Serial Wide Area NetworkHigh-Level Data-Link Control (HDLC) ProtocolPoint-to-Point Protocol (PPP)Frame RelayVirtual Private Networks
DAY 16
Hands-on practical:
Eigrp,OSPF,RIP,STATIC,DEFAULT ROUTE,VLAN,NAT and SWITCHING using live routers like
1. cisco 2600 series routers
2. cisco 2800 series routers
3. cisco 3550 Multilayer switch
4. cisco 2960/2950 switch
Module 6 MICROWAVE RADIO ENGINEERING
DAY 1
Microwave Communication Overview1.1 Basic Concepts of Digital Microwave 1.2 Microwave Development Course1.2.1 Microwave Evolution in the World1.2.2 Microwave Evolution in China1.3 Characteristics of Digital Radio Communication System 1.4 Challenges and Opportunities for Digital Microwave Communication1.4.1 Optical Fiber Communication—Biggest Challenge for Digital MicrowaveCommunication 1.4.2 Opportunities for Digital Microwave Communication 1.5 Microwave Frequency Band Choice and RF Channel Arrangements1.6 Digital Microwave Communication System Model1.6.1 Modulation Method of Digital Microwave 1.6.2 Channel Utilization of Each Modulation 1.7 Digital Microwave Frame Structure1.8 Conclusion
DAY 2
Introduction to Digital Microwave Equipment 2.1 Digital Microwave Equipment Classification 2.2 Microwave antenna and feeder 2.2.1 Microwave antenna2.2.2 Classification of Microwave Antennas 2.2.3 Feeder System2.2.4 Branching System 2.3 Outdoor unit (ODU)2.3.1 Constituents of Digital Microwave Transmitter and Major Performance Indexes 2.3.2 Constituents and Major Indexes of Receiver 2.4 Indoor Unit 2.5 Installation and Adjustment of Split Microwave System 2.6 Conclusion
DAY 3
Microwave System Networking and Application3.1 Microwave System Typical Networking Modes and Station Types3.1.1 Typical Networking Modes3.1.2 Microwave Station Types 3.2 Relay Station3.2.1 Passive Repeater Station 3.2.2 Active Repeater Station 3.3 Digital Microwave Application 3.4 Conclusion
DAY 4
Microwave Propagation Theory 4.1 Electric Wave Propagation in Free Space4.1.1 Free Space
4.1.2 Propagation Loss of Electric Waves in Free Space4.2 Influence of Ground Reflection on the Electric Wave Propagation 4.2.1 Concept of Fresnel Zone4.2.2 Influence of Ground Reflection on Receiving Level 4.3 Influence of Troposphere on Electric Wave4.3.1 Ray Bend in Atmosphere 4.3.2 Concept of Equivalent Earth Radius 4.3.3 Refraction4.3.4 The Meaning of K Value in Engineering Design 4.4 Fading caused by Several Atmospheric and Earth Effects 4.4.1 Fading Types4.4.2 Influence of Troposphere on Electric Wave Propagation 4.4.3 Fading Rules (microwave frequency bands lower than 10 GHz4.5 Frequency Selective Fading 4.5.1 Multi-path Propagation of Electric Waves 4.5.2 Influence of Frequency Selective Fading on Transmission Quality of MicrowaveCommunication Systems 4.6 Statistic Feature of Fading4.6.1 Microwave Fading Model 4.6.2 Engineering Calculation of Fading4.7 Conclusion
DAY 5
Anti-Fading Technology in Digital Microwave Equipment 5.1 Overview 5.1.1 Purposes of Taking Anti-Fading Measures5.1.2 Classification of Anti-Fading Measures5.1.3 Evaluation on Anti-Fading Measures 5.2 Adaptive Equalization 5.2.1 AFE 5.2.2 ATE 5.3 Cross-Polarization Interference Counteracter (XPIC) 5.4 Automatic Transmit Power Control (ATPC5.5 Diversity Reception5.5.1 Classification of Diversity Reception5.5.2 Description of Space Diversity 5.5.3 Compound Mode of Diversity Signals5.6 Microwave Equipment Protection Mode 5.6.1 HSM 5.6.2 HSB 5.6.3 Classification of Digital Microwave Equipment Protection Modes 5.7 Interference and Main Methods against Interference5.7.1 Interference Source5.7.2 Basic Methods of Communication System against Interference 5.8 Conclusion
DAY 6
Digital Microwave Engineering Calculation 6.1 Overview 6.2 Microwave Path Parameter Calculation
6.2.1 Microwave Station Antenna Communication Azimuth Calculation 6.2.2 Calculation of Path Distance6.2.3 Calculation of Elevation and Minus Angles6.2.4 Calculation of Clearance6.2.5 Calculation of Reflection Point 6.2.6 Determining Antenna Gain6.3 Calculation of Microwave Circuit Index6.3.1 Calculation of Receiving Level and Flat Fading Margin6.3.2 Calculation of Interference Level6.3.3 Calculation of Diversity Receiving Parameter6.3.4 Calculation of Circuit Interruption Rate 6.3.5 Rain Fading6.3.6 Gas Absorption6.4 Conclusion
DAY 7
Microwave Engineering Design Requirement 7.1 O7.2 Basic Requirement of Microwave Path and Cross-section Design 7.2.1 Cross Section and Station Distance 7.2.2 Clearance Standard 7.2.3 Antenna Height and Space Diversity Distance 7.3 Selecting Microwave Band and Configuring Polarization7.3.1 Selecting Microwave Band7.3.2 Arrangement of Microwave Frequency and Polarization 7.4 Technical Requirement of Digital Microwave Relay Communication Engineering Design7.4.1 PDH Microwave Engineering Design Technical Requirement7.4.2 SDH Microwave Engineering Design Technical Requirement7.4.3 Access Network Technical Requirement—26 GHz Local Multiple-point DistributionSystem (LMDS7.4.4 Access Network Technical Requirement—3.5 GHz Fixed Radio Access 7.5 Conclusion
DAY 8
Microwave Engineering Design 8.1 Design Method8.1.1 Overview 8.1.2 Route, Site and Antenna Height8.1.3 Frequency Selection and Polarization Arrangement8.1.4 Circuit Performance Estimate 8.2 Design Example8.2.1 SDH Microwave Circuit 8.2.2 SDH Microwave Site Type and Polarization Configuration8.2.3 Calculation of PDH Microwave Circuit Indexes8.3 Conclusion
DAY 9Precautions in Engineering Design9.1 Equipment Layout9.2 Installation of Microwave Antenna9.3 Process Requirement for the Tower
9.3.1 Process Requirement of New Established Tower9.3.2 Orientation Requirement of Newly Established Tower 9.3.3 Requirement for Old Tower to be used9.4 Conclusion
DAY 10
Practical: Live Equipment
All you have to know about Huawei RTN 910/950 Digital Microwave radio
DAY 11
Practical:
All you have to know about Harris Stratex Eclipse 5.0 Digital Microwave Radio
DAY 12
Practical:
All you have to know about Ericsson Mini-link Traffic Node
DAY 13
Practical:
All you have to know about Power-Station5 2.4GHZ/5.8GHZ /CERAGON FIBEAIR IP Ethernet Radios
DAY 14
Practical:
All you have to know about Tranzeo 2.4GHZ/5.8GHZ IP Ethernet Radios
