Sanjay Parmar is seeking a senior engineering role in telecom operations. He has over 9 years of experience in field support, network configuration, and maintenance of 2G, 3G, and transmission equipment for Nokia Networks. Currently an IP Engineer for Airtel, some of his responsibilities include Ethernet media testing, provisioning, fault management, and VLAN tagging. He is proficient in technologies like Cisco, Nokia, Huawei, and has expertise in routing, switching, and transmission equipment.
Sanjay Parmar is a senior engineer with over 7 years of experience in operations, configuration and maintenance of 2G and 3G networks. He is currently spearheading efforts across 100 Nokia sites, 3 BSCs and 5 SDH rings as a senior BSS engineer for Airtel in Indore, Madhya Pradesh. He is proficient in Nokia BTS Manager, Flexi BTS Manager, BSC and transmission equipment. He seeks a challenging role as a senior engineer preferably in the telecom sector.
The document summarizes Cambium Networks' point-to-point and rapid deployment broadband wireless solutions for civilian and military applications. It describes their portfolio of solutions including the PTP 600 for long-distance connectivity, RDB 350 for rapid deployability, and PTP 800 for affordable microwave. It provides examples of how these solutions have been used for applications such as test range communications, convoy mobility, ship-to-shore connectivity, and more.
Ashish Singh Sengar has over 9 years of experience as a senior network administrator. He has extensive experience installing, configuring, and supporting Cisco routers, switches, firewalls, and wireless access points. He is proficient in networking protocols, routing, switching, security, and troubleshooting network issues. He is currently seeking a high-growth position that provides opportunities for professional development.
Raman Kumar is a Cisco Certified Network Professional with over 10 years of experience in networking. He has worked on mobile packet core networks for Vodafone and Airtel. Currently he works for SRA OSS Inc. as a Mobile Packet Core Engineer, where he is responsible for configuration, maintenance and troubleshooting of Vodafone's MPLS and packet core networks. He has expertise in routing, switching, wireless networks and troubleshooting networking issues.
Wireless LAN Design and Deployment of Rich Media NetworksCisco Mobility
This document discusses wireless LAN design and deployment for rich media networks. It covers topics such as Wi-Fi channel bandwidth management for multiple application types, configuring for capacity and voice/video bandwidth, configuring for best channel utilization, 802.11 channel design for VDI, and bringing 802.11n enhancements together for better data, voice and video wireless LANs. The document provides recommendations and considerations for optimizing a wireless network for various media types including voice, video and data.
Managing the Mobile Device Wave for Enterpise Wireless Networks: Best PracticesCisco Mobility
Learn how to plan evaluate and implement wireless in demanding high density environments such as lecture halls classrooms and auditoriums. Learn how to evaluate end user throughput requirements and translate this into the number of channels required. Learn how to manage cell size co-channel interference and successfully apply these principles using Cisco´s Unified Wireless Network. Learn More: http://www.cisco.com/go/wireless
The document summarizes a test report on Cisco ISR G2 integrated services routers. Key findings include:
1) Cisco ISR G2 routers delivered 8 times the performance of previous models and throughput up to 398 Mbps with integrated services enabled.
2) Testing showed the ISR G2 platforms support bandwidth-optimized video and streaming while maintaining throughput above required branch bandwidth levels.
3) The Cisco ISR 3945E delivered the highest performance of the routers tested, with upgraded Service Performance Engines providing up to a 96% increase in throughput over previous models.
G5 provides a unique solution that allows service provid-ers to replace legacy line access equipment with a complete LineAccess Gateway inclusive of the line card.
Sanjay Parmar is a senior engineer with over 7 years of experience in operations, configuration and maintenance of 2G and 3G networks. He is currently spearheading efforts across 100 Nokia sites, 3 BSCs and 5 SDH rings as a senior BSS engineer for Airtel in Indore, Madhya Pradesh. He is proficient in Nokia BTS Manager, Flexi BTS Manager, BSC and transmission equipment. He seeks a challenging role as a senior engineer preferably in the telecom sector.
The document summarizes Cambium Networks' point-to-point and rapid deployment broadband wireless solutions for civilian and military applications. It describes their portfolio of solutions including the PTP 600 for long-distance connectivity, RDB 350 for rapid deployability, and PTP 800 for affordable microwave. It provides examples of how these solutions have been used for applications such as test range communications, convoy mobility, ship-to-shore connectivity, and more.
Ashish Singh Sengar has over 9 years of experience as a senior network administrator. He has extensive experience installing, configuring, and supporting Cisco routers, switches, firewalls, and wireless access points. He is proficient in networking protocols, routing, switching, security, and troubleshooting network issues. He is currently seeking a high-growth position that provides opportunities for professional development.
Raman Kumar is a Cisco Certified Network Professional with over 10 years of experience in networking. He has worked on mobile packet core networks for Vodafone and Airtel. Currently he works for SRA OSS Inc. as a Mobile Packet Core Engineer, where he is responsible for configuration, maintenance and troubleshooting of Vodafone's MPLS and packet core networks. He has expertise in routing, switching, wireless networks and troubleshooting networking issues.
Wireless LAN Design and Deployment of Rich Media NetworksCisco Mobility
This document discusses wireless LAN design and deployment for rich media networks. It covers topics such as Wi-Fi channel bandwidth management for multiple application types, configuring for capacity and voice/video bandwidth, configuring for best channel utilization, 802.11 channel design for VDI, and bringing 802.11n enhancements together for better data, voice and video wireless LANs. The document provides recommendations and considerations for optimizing a wireless network for various media types including voice, video and data.
Managing the Mobile Device Wave for Enterpise Wireless Networks: Best PracticesCisco Mobility
Learn how to plan evaluate and implement wireless in demanding high density environments such as lecture halls classrooms and auditoriums. Learn how to evaluate end user throughput requirements and translate this into the number of channels required. Learn how to manage cell size co-channel interference and successfully apply these principles using Cisco´s Unified Wireless Network. Learn More: http://www.cisco.com/go/wireless
The document summarizes a test report on Cisco ISR G2 integrated services routers. Key findings include:
1) Cisco ISR G2 routers delivered 8 times the performance of previous models and throughput up to 398 Mbps with integrated services enabled.
2) Testing showed the ISR G2 platforms support bandwidth-optimized video and streaming while maintaining throughput above required branch bandwidth levels.
3) The Cisco ISR 3945E delivered the highest performance of the routers tested, with upgraded Service Performance Engines providing up to a 96% increase in throughput over previous models.
G5 provides a unique solution that allows service provid-ers to replace legacy line access equipment with a complete LineAccess Gateway inclusive of the line card.
The GENBAND G6 Universal Gateway is a carrier-class, multipurpose gateway that supports multiple VoIP architectures and 240 to 16,128 ports in a single chassis. It provides connectivity between IP and TDM/circuit-switched networks with extensive protocol and media interworking. The G6 enables various VoIP services and is compatible with different network standards while offering high reliability, redundancy, and manageability.
Deploying the Cisco Mobility Services Engine for Advanced Wireless ServicesCisco Mobility
Learn the fundamentals of advanced wireless services from design to deployment and operation. Includes Context-Aware for wireless location of users, clients and interference events with CleanAir and Adaptive Wireless IPS for advanced security protection. Learn More: http://www.cisco.com/go/wireless
Deploying Cisco ISR G2 and ASR 1000 in the EnterpriseCisco Canada
This presentation discusses the disrupting networking trends that are changing the Enterprise landscape, scope of these changes include the areas of network security, services delivery, application performance optimization and cloud access in tomorrow's borderless networks. The biggest challenge is to help Enterprise IT scale. Borderless Networks is an architectural approach to networking that, if designed correctly, can automate business and network processes driving down operational cost, thus allowing IT to scale. Cisco ISR G2 and ASR 1000 platforms offer the best in class service richness and flexibility that is needed to deliver the promise of borderless networks and allow users to turn on services on-demand.
Understanding CleanAir Technology to improve enterprise WLAN spectrum managementCisco Mobility
Managing the Radio Frequency and Spectrum is a critical challenge for modern WLAN networks especially with advanced applications like VoWLAN. This session looks at the theory of operations and best practices for taking advantage of Radio Resource Management and usage of several tools included or available from Cisco like ´Planning Mode´ and ´Cisco Spectrum Expert´. Learn More: http://www.cisco.com/go/cleanair
Design, Deployment and Management of Unified WLANCisco Canada
1) 1st and 2nd generation WLAN architectures placed client traffic on local VLANs on the access point, while 3rd generation architectures use a controller to bridge client traffic centrally.
2) CAPWAP is used between access points and WLAN controllers to carry both control and data traffic, with the control plane encrypted using DTLS and data encryption being optional.
3) CAPWAP supports two operation modes - split MAC which centralizes processing on the controller, and local MAC (FlexConnect) which bridges traffic locally on the access point. Cisco recommends deterministic redundancy over dynamic for better control and fallback options.
Jithesh has over 8 years of experience as a senior network security engineer. He has expertise in networking protocols, Cisco and Juniper platforms, firewalls, load balancers and more. Currently he works as a senior network engineer for Perficient where he is responsible for routing, switching, security and load balancing. He has extensive experience designing, implementing and troubleshooting enterprise networks.
This CV summarizes Om Prakash Singh's professional experience and qualifications. He has over 14 years of experience as a network specialist and architect. His skills include routing, switching, wireless, security, firewalls, VPNs, QoS, and more. He has worked on projects for various clients in roles such as solution architect, network consultant, and network administrator.
The document describes the AP-7131-GR, an 802.11n wireless access point that is the first to achieve FIPS 140-2 Level 2 validation. It has dual-band radios that allow it to simultaneously support wireless data, voice, video and wireless intrusion prevention system functionality. It provides high security for government agencies through its certifications and ability to perform around-the-clock wireless intrusion detection on both frequency bands using one of its radios. It simplifies deployment and reduces costs by integrating multiple networking functions into a single device.
Gigamon U - Missing Link TAP TechnologyGrant Swanson
One of the most difficult challenges facing Security, VoIP, and Network Management Solutions is how to implement network tools onto enterprise networks. Enterprise networks are becoming more complex when looking at how to monitor and capture data. It can be difficult or impossible to gain access to network SPAN Ports or inserting In-line Devices like Intrusion Prevention Systems into enterprise networks. Contention for network access is a major problem. Learn how to design a network access solution that meets the requirements for security, network monitoring, and overall network access solutions. We help solve the questions, How do I get secure access to the network for capturing data or monitoring data traffic? Why TAP your network?
The document provides a summary of an engineering professional's skills and qualifications. It lists technical skills and certifications in areas such as routing, switching, wireless networks and various networking devices. It also outlines work experience with companies like Ericsson and Huawei maintaining and supporting their transmission equipment. The professional holds a BE in electrical engineering and has obtained the CCNA certification from Cisco.
Preparing Your Network for Wave 2 of 802.11acCisco Mobility
Learn how to prepare your network for 802.11ac Wave 2. Find out more here: http://www.cisco.com/c/en/us/solutions/enterprise-networks/802-11ac-solution/index.html.
The document outlines competencies in mobile and wireless communications including network architectures, network protocols from layers 1-5, the physical layer, and cross-layer design. It provides examples of network architectures like access networks, mesh networks, and sensor networks. It also discusses topics in network protocols, the physical layer including signal propagation and radio technologies, and cross-layer optimization across the protocol stack.
Network Physics helps you defend your network against that too-familiar claim: "the network is slow!" Learn how the NP-2000 can solve your problems, without the hassle of SNMP, RMON2, agents, or synthetic transactions. The NetSensory solution operates across the most complex networks, WAN, VPN, MPLS, LAN, that delivers detailed real-time and historical information about performance, utilization, route quality, ISP performance, and end-user experience using Insight interface, a step-by-step Best Practice action guide. The result is radically simplified network troubleshooting, easier deployment of new applications and services, and reduced operating expenses.
Philippe Langlois - LTE Pwnage - P1securityP1Security
Today, we’re entering the realm of LTE super high speed always-on connectivity and with that comes the victory of TCP/IP in front of the old ITU/3GPP protocols. And with this comes many side effects: software gets standardized, everything runs on top of ATCA (Advanced Telecom Computing Architecture) hardware running mostly Linux -give or take 6 or 8 proprietary FPGA-based sister cards, TFTP-booted with decade old VxWorks that routinely show hardcoded DES credentials and funny “behaviour”. Easily 20 GB of fat C++ binaries, some for x86, PPC, MIPS, some with up to 200 Mbytes file sizes for one single EXE! It’s called a vulnerability research and reverse engineering paradise… or hell.
All the protocols now run on top of IP, which ends up having 12 layers thanks to encapsulation and still the weight of legacy in bugs quantity and diversity. We’ll see how the porting of SS7 MAP on top of IP (SIGTRAN, Diameter) has given rise to funny Denial of Service (DoS) attacks against telecom core elements (DSR, STP), with trashy-crashy anti-forensics consequences for DPI and tracking (Hey @grugq!!).
We’ll look into specific vulnerabilities, and talk about the very particular way that Network Equipment Vendors deal with security in the telecom domain.
We will demo a virtualized Huawei HSS from our testbed and show some of the vulnerabilities and attacks directly on the equipment itself. We will finally talk about telco equipment and product security reviews and the fallacy of (some) certification and (many) standardization attempts. We will then see how to conduct a practical and fast telecom product security life cycle with automation and open source tools.
Gigamon U - You Will See, Content Monitoring, Alerting, and Forensic AnalysisGrant Swanson
Reconnex is the leader in information monitoring and protection appliances designed for any organization, including enterprises, government agencies or education institutions that want to protect their brands, maintain compliance, or protect sensitive information. A privately-held company based in Silicon Valley, Calif., Reconnex protects information for companies such as Cadence, WebEx Communications, The George Washington University, SIRVA and Maimonides Medical Center.
The document discusses hybrid fiber powerline communication (HFPC) as a new solution to deliver internet services that combines fiber optics and powerline communication (PLC). HFPC uses aerial fiber optic cables on medium voltage poles for backhaul and PLC to connect to consumers over low voltage powerlines. This allows internet access through any electrical outlet in a home while reducing costs compared to all-fiber networks. The technology provides high bandwidth to support services like IPTV and allows for both PLC and direct fiber connections.
This document discusses the transition to gigabit Wi-Fi networks using the 802.11ac standard. It notes that mobile data usage and demands on wireless networks are growing rapidly, driven by more devices and applications. The 802.11ac standard provides faster speeds and more bandwidth to address this growth. Cisco's solutions for 802.11ac, including its High Density Experience (HDX) technology, are highlighted as optimizing performance for high-density environments like offices and events.
The WIDHOP 900 Series point-to-point radio is designed for high capacity and easy integration with packet networks. It uses adaptive modulation up to 1024 QAM to achieve throughput up to 500 Mbps. The full outdoor solution has a small footprint and low power consumption. It provides flexibility through multiple configuration options and a capacity-license approach to minimize costs for network operators.
Gb over IP allows using Internet Protocol (IP) as a transport method instead of Frame Relay in wireless networks. When IP is used, packet traffic does not go through circuit-based PCM networks and it enables more efficient transmission of IP-based services. Setting up Gb over IP requires assigning IP addresses to Packet Control Units, creating Packet Service Entities, and establishing Network Service Virtual Links between the BSC and SGSN using their IP addresses and ports.
The document discusses technical specifications and parameters related to LTE and UMTS networks, including:
- Typical NodeB and UE sensitivity levels range from -115dBm to -125dBm and -105dBm to -120dBm respectively.
- NodeB maximum output power is usually 20W or 40W (43dBm or 46dBm). UE maximum transmit power is typically 21dBm.
- Antenna gain depends on the antenna model but is typically around 17dBi. Maximum path loss in urban areas is 135-140dB and 150-160dB in rural areas.
- Other topics covered include Eb/No targets, channelization codes, soft handover gain
This document discusses radio resource optimization parameters in GSM networks. It covers topics like idle parameter optimization, power control, handover control, radio resource administration, measurement processing, signaling channel mapping, traffic channel mapping, paging parameters, access grant channel parameters, frequency reuse, and frequency hopping techniques. Diagrams and examples are provided to illustrate concepts like TDMA frame structure, logical and physical channel organization, and capacity calculations.
The GENBAND G6 Universal Gateway is a carrier-class, multipurpose gateway that supports multiple VoIP architectures and 240 to 16,128 ports in a single chassis. It provides connectivity between IP and TDM/circuit-switched networks with extensive protocol and media interworking. The G6 enables various VoIP services and is compatible with different network standards while offering high reliability, redundancy, and manageability.
Deploying the Cisco Mobility Services Engine for Advanced Wireless ServicesCisco Mobility
Learn the fundamentals of advanced wireless services from design to deployment and operation. Includes Context-Aware for wireless location of users, clients and interference events with CleanAir and Adaptive Wireless IPS for advanced security protection. Learn More: http://www.cisco.com/go/wireless
Deploying Cisco ISR G2 and ASR 1000 in the EnterpriseCisco Canada
This presentation discusses the disrupting networking trends that are changing the Enterprise landscape, scope of these changes include the areas of network security, services delivery, application performance optimization and cloud access in tomorrow's borderless networks. The biggest challenge is to help Enterprise IT scale. Borderless Networks is an architectural approach to networking that, if designed correctly, can automate business and network processes driving down operational cost, thus allowing IT to scale. Cisco ISR G2 and ASR 1000 platforms offer the best in class service richness and flexibility that is needed to deliver the promise of borderless networks and allow users to turn on services on-demand.
Understanding CleanAir Technology to improve enterprise WLAN spectrum managementCisco Mobility
Managing the Radio Frequency and Spectrum is a critical challenge for modern WLAN networks especially with advanced applications like VoWLAN. This session looks at the theory of operations and best practices for taking advantage of Radio Resource Management and usage of several tools included or available from Cisco like ´Planning Mode´ and ´Cisco Spectrum Expert´. Learn More: http://www.cisco.com/go/cleanair
Design, Deployment and Management of Unified WLANCisco Canada
1) 1st and 2nd generation WLAN architectures placed client traffic on local VLANs on the access point, while 3rd generation architectures use a controller to bridge client traffic centrally.
2) CAPWAP is used between access points and WLAN controllers to carry both control and data traffic, with the control plane encrypted using DTLS and data encryption being optional.
3) CAPWAP supports two operation modes - split MAC which centralizes processing on the controller, and local MAC (FlexConnect) which bridges traffic locally on the access point. Cisco recommends deterministic redundancy over dynamic for better control and fallback options.
Jithesh has over 8 years of experience as a senior network security engineer. He has expertise in networking protocols, Cisco and Juniper platforms, firewalls, load balancers and more. Currently he works as a senior network engineer for Perficient where he is responsible for routing, switching, security and load balancing. He has extensive experience designing, implementing and troubleshooting enterprise networks.
This CV summarizes Om Prakash Singh's professional experience and qualifications. He has over 14 years of experience as a network specialist and architect. His skills include routing, switching, wireless, security, firewalls, VPNs, QoS, and more. He has worked on projects for various clients in roles such as solution architect, network consultant, and network administrator.
The document describes the AP-7131-GR, an 802.11n wireless access point that is the first to achieve FIPS 140-2 Level 2 validation. It has dual-band radios that allow it to simultaneously support wireless data, voice, video and wireless intrusion prevention system functionality. It provides high security for government agencies through its certifications and ability to perform around-the-clock wireless intrusion detection on both frequency bands using one of its radios. It simplifies deployment and reduces costs by integrating multiple networking functions into a single device.
Gigamon U - Missing Link TAP TechnologyGrant Swanson
One of the most difficult challenges facing Security, VoIP, and Network Management Solutions is how to implement network tools onto enterprise networks. Enterprise networks are becoming more complex when looking at how to monitor and capture data. It can be difficult or impossible to gain access to network SPAN Ports or inserting In-line Devices like Intrusion Prevention Systems into enterprise networks. Contention for network access is a major problem. Learn how to design a network access solution that meets the requirements for security, network monitoring, and overall network access solutions. We help solve the questions, How do I get secure access to the network for capturing data or monitoring data traffic? Why TAP your network?
The document provides a summary of an engineering professional's skills and qualifications. It lists technical skills and certifications in areas such as routing, switching, wireless networks and various networking devices. It also outlines work experience with companies like Ericsson and Huawei maintaining and supporting their transmission equipment. The professional holds a BE in electrical engineering and has obtained the CCNA certification from Cisco.
Preparing Your Network for Wave 2 of 802.11acCisco Mobility
Learn how to prepare your network for 802.11ac Wave 2. Find out more here: http://www.cisco.com/c/en/us/solutions/enterprise-networks/802-11ac-solution/index.html.
The document outlines competencies in mobile and wireless communications including network architectures, network protocols from layers 1-5, the physical layer, and cross-layer design. It provides examples of network architectures like access networks, mesh networks, and sensor networks. It also discusses topics in network protocols, the physical layer including signal propagation and radio technologies, and cross-layer optimization across the protocol stack.
Network Physics helps you defend your network against that too-familiar claim: "the network is slow!" Learn how the NP-2000 can solve your problems, without the hassle of SNMP, RMON2, agents, or synthetic transactions. The NetSensory solution operates across the most complex networks, WAN, VPN, MPLS, LAN, that delivers detailed real-time and historical information about performance, utilization, route quality, ISP performance, and end-user experience using Insight interface, a step-by-step Best Practice action guide. The result is radically simplified network troubleshooting, easier deployment of new applications and services, and reduced operating expenses.
Philippe Langlois - LTE Pwnage - P1securityP1Security
Today, we’re entering the realm of LTE super high speed always-on connectivity and with that comes the victory of TCP/IP in front of the old ITU/3GPP protocols. And with this comes many side effects: software gets standardized, everything runs on top of ATCA (Advanced Telecom Computing Architecture) hardware running mostly Linux -give or take 6 or 8 proprietary FPGA-based sister cards, TFTP-booted with decade old VxWorks that routinely show hardcoded DES credentials and funny “behaviour”. Easily 20 GB of fat C++ binaries, some for x86, PPC, MIPS, some with up to 200 Mbytes file sizes for one single EXE! It’s called a vulnerability research and reverse engineering paradise… or hell.
All the protocols now run on top of IP, which ends up having 12 layers thanks to encapsulation and still the weight of legacy in bugs quantity and diversity. We’ll see how the porting of SS7 MAP on top of IP (SIGTRAN, Diameter) has given rise to funny Denial of Service (DoS) attacks against telecom core elements (DSR, STP), with trashy-crashy anti-forensics consequences for DPI and tracking (Hey @grugq!!).
We’ll look into specific vulnerabilities, and talk about the very particular way that Network Equipment Vendors deal with security in the telecom domain.
We will demo a virtualized Huawei HSS from our testbed and show some of the vulnerabilities and attacks directly on the equipment itself. We will finally talk about telco equipment and product security reviews and the fallacy of (some) certification and (many) standardization attempts. We will then see how to conduct a practical and fast telecom product security life cycle with automation and open source tools.
Gigamon U - You Will See, Content Monitoring, Alerting, and Forensic AnalysisGrant Swanson
Reconnex is the leader in information monitoring and protection appliances designed for any organization, including enterprises, government agencies or education institutions that want to protect their brands, maintain compliance, or protect sensitive information. A privately-held company based in Silicon Valley, Calif., Reconnex protects information for companies such as Cadence, WebEx Communications, The George Washington University, SIRVA and Maimonides Medical Center.
The document discusses hybrid fiber powerline communication (HFPC) as a new solution to deliver internet services that combines fiber optics and powerline communication (PLC). HFPC uses aerial fiber optic cables on medium voltage poles for backhaul and PLC to connect to consumers over low voltage powerlines. This allows internet access through any electrical outlet in a home while reducing costs compared to all-fiber networks. The technology provides high bandwidth to support services like IPTV and allows for both PLC and direct fiber connections.
This document discusses the transition to gigabit Wi-Fi networks using the 802.11ac standard. It notes that mobile data usage and demands on wireless networks are growing rapidly, driven by more devices and applications. The 802.11ac standard provides faster speeds and more bandwidth to address this growth. Cisco's solutions for 802.11ac, including its High Density Experience (HDX) technology, are highlighted as optimizing performance for high-density environments like offices and events.
The WIDHOP 900 Series point-to-point radio is designed for high capacity and easy integration with packet networks. It uses adaptive modulation up to 1024 QAM to achieve throughput up to 500 Mbps. The full outdoor solution has a small footprint and low power consumption. It provides flexibility through multiple configuration options and a capacity-license approach to minimize costs for network operators.
Gb over IP allows using Internet Protocol (IP) as a transport method instead of Frame Relay in wireless networks. When IP is used, packet traffic does not go through circuit-based PCM networks and it enables more efficient transmission of IP-based services. Setting up Gb over IP requires assigning IP addresses to Packet Control Units, creating Packet Service Entities, and establishing Network Service Virtual Links between the BSC and SGSN using their IP addresses and ports.
The document discusses technical specifications and parameters related to LTE and UMTS networks, including:
- Typical NodeB and UE sensitivity levels range from -115dBm to -125dBm and -105dBm to -120dBm respectively.
- NodeB maximum output power is usually 20W or 40W (43dBm or 46dBm). UE maximum transmit power is typically 21dBm.
- Antenna gain depends on the antenna model but is typically around 17dBi. Maximum path loss in urban areas is 135-140dB and 150-160dB in rural areas.
- Other topics covered include Eb/No targets, channelization codes, soft handover gain
This document discusses radio resource optimization parameters in GSM networks. It covers topics like idle parameter optimization, power control, handover control, radio resource administration, measurement processing, signaling channel mapping, traffic channel mapping, paging parameters, access grant channel parameters, frequency reuse, and frequency hopping techniques. Diagrams and examples are provided to illustrate concepts like TDMA frame structure, logical and physical channel organization, and capacity calculations.
WCDMA FDD MODULATION):
- Set the channel number or frequency to be used on the RNC
- Set the expected power to the value determined in the power
measurement
- Carry out modulation analysis (softkey Start)
9
Rohde & Schwarz
RBS3202 Test with CMU300 and RNC/Iub SIM
- Check the results for compliance with the limits in [1]
- Save the results if required
- Repeat the measurements for other test models if required
- Switch to spectrum analysis (softkeys Menus / Assistant:
WCDMA FDD SPECTRUM) and carry out spectrum mask
measurement
The document provides guidance on optimizing key performance indicators (KPIs) such as call setup success rate (CSSR). It discusses analyzing CSSR by examining its components like SDCCH drop rate. A high SDCCH drop rate can be caused by hardware issues, interference, or transmission problems. The document recommends checking specific counters and alarms to determine the root cause, and describes potential fixes like moving SDCCH channels or adjusting parameters. Overall, the document outlines a process for identifying underperforming cells, analyzing relevant KPIs and counters, and addressing issues to improve network optimization.
The document provides information on 3G IP architecture including definitions of network nodes in GSM, UMTS, and 3G, as well as schematics of the GSM, GPRS, and 3G network architectures. It also includes sections on network vendors, telecommunication companies, and sample careers including a job posting for a Network Engineer role at Ericsson.
This document provides parameters for radio network configuration in a Nokia wireless network. It contains over 100 parameters organized in sections for the BSC, BCF, BTS, adjacent cells, and other settings. The parameters define thresholds, timers, and options that control functions like call handling, congestion management, handover processing, and radio resource allocation. The document is intended only for Nokia customers and subject to change without notice.
1) The document discusses the installation and commissioning of a Nokia Flexi EDGE BTS. It provides an overview of the GSM system and BTS functions.
2) It describes the various components of the Nokia Flexi EDGE BTS including the EDGE System Module (ESMA), Dual TRX Module (EXxA), Dual Duplexer Module (ERxA), and Wideband Combiner (EWxA).
3) The commissioning process involves 12 steps like hardware installation, software configuration, RF parameter checks, traffic tests and O&M integration to activate the BTS in the live network.
Sudhakar Kumar Singh has over 3 years of experience in telecom operations and maintenance with Nokia. He currently works as a GNIC and BSS engineer for Nokia in Chennai, India, where his responsibilities include network integration, configuration management, software upgrades, and troubleshooting. Previously he worked as a fault management engineer for Nokia in Noida, India, where he supported Bharti Airtel's 2G network and handled fault finding and resolution. He also has 9 months of experience as a network engineer at HCL Infosystems in Dehradun, India. Sudhakar holds a B.Tech in Electronics and Communication from RTU Kota, India.
Sushil Kumar is a telecom network engineer with over 10 years of experience working for companies like Nokia, Ericsson, Reliance Communications, and Rainbow Systems. He is currently a team lead at Nokia Networks, managing a team of 30 engineers responsible for the operations of mobile networks in Africa and India. Prior experience includes roles in configuration management, fault management, and wireless network deployment and maintenance.
Gyanendra Patel is a telecom industry professional with over 4 years of experience in fields such as site creation, BSC implementation, installation, commissioning, network planning, field support, and operations and maintenance of 2G and 3G networks. He is currently working as a RAN engineer for Tata Communications, where he is responsible for troubleshooting, commissioning, testing, and maintenance of telecommunications equipment to ensure maximum uptime. Patel has expertise in areas like IP planning, transmission equipment, BSC activities, provisioning plans, and software upgrades. He is proficient with tools from Nokia, Cisco, NEC, Huawei and other vendors.
This resume summarizes Devesh Chandra's experience working in telecommunications over the past 15 years. He has extensive experience commissioning and supporting 2G and 3G networks for major carriers like Airtel and Nokia. Currently he works as a NOC transmission engineer at Altran Technologies, where he monitors networks and troubleshoots transmission issues to ensure high availability. He has a degree in electronics and instrumentation and skills in technologies like GSM, CDMA, IP networks, and microwave transmission equipment from vendors such as Nokia, Ericsson, and Huawei.
Giridharan has over 6 years of experience in IT networking. He has worked as a network engineer for several companies supporting their Cisco router, switch, and firewall infrastructure. He is proficient in technologies like Cisco IOS, OSPF, BGP, firewall configuration, and network monitoring tools. His experience includes roles supporting large networks for clients such as Vodafone, IBM, and banks.
Lokesh Yadav has over 5 years of experience in wireless telecommunication networks including roles as a Switch Engineer with Ericsson India and as a Configuration Management Engineer with Nokia Solutions and Networks. He has expertise in fault management, operations and maintenance of 2G core network elements and BSS components. He also worked previously as an OMCR Engineer for Huawei Telecom maintaining alarms, backups and reliability for 2G and 3G networks. Lokesh holds a Bachelor's degree in Electronics and Communication Engineering.
Giridharan has over 6 years of experience in IT networking. He has worked as a network engineer for several companies supporting their Cisco router, switch, and firewall infrastructure. He is proficient in technologies like Cisco IOS, OSPF, BGP, firewall configuration, and network monitoring tools. His experience includes roles providing escalation support and managing networks for clients such as Vodafone, IBM, and banks.
Jeffin K Koottummel is seeking a position that allows him to contribute to an organization's success. He has over 6 years of experience in telecommunications, including 5+ years working with 2G, 3G, and 4G networks. His experience includes roles as a BSS Engineer and Sr BSS Engineer, where he performed tasks like network maintenance, administration, and troubleshooting. He has technical skills in areas like GSM, CDMA, LTE, SDH, PDH, and networking protocols.
This resume is for Devesh Chandra, who has over 7 years of experience in commissioning and integrating Nokia and Ericsson mobile network equipment. He currently works as a NOC Transmission Engineer for Altran Technologies, where he is responsible for fault management and ensuring quality of Nokia's GSM network. Previously he has worked for Nokia Networks, Ericsson, and other telecom companies in roles such as O&M Engineer, BSS Team Lead, and Project Engineer, where he commissioned and supported 2G, 3G, and transmission equipment. He holds a B.Tech in Electronics and Instrumentation and has additional training in computer applications.
Priyank Sharma is seeking a managerial role in maintenance operations or project management, preferably in the telecom sector. He has over 4.5 years of experience in telecom operations and maintenance. Currently he is a Cluster Manager at ZTE Telecommunication India Pvt. Ltd., where he is responsible for the maintenance and operations of 588 sites. He has experience managing projects, installations, commissioning, materials, teams and troubleshooting networks and equipment.
Avinash Mishra is seeking a position in cellular communications. He has over 8 years of experience working in transmission, primarily with SDH, PDH, microwave, and fault management networks. His experience includes roles as a consultant for Huawei and Nokia Solutions and Networks in South Africa and Myanmar, where he performed tasks like network monitoring, troubleshooting, software upgrades, and providing support to field engineers. He also has experience managing technician teams and being responsible for network expansion and operations. Mishra has a diploma in electronics and communication engineering and a bachelor's degree in electronics and telecommunications.
Bhagwan Sahay Sharma has over 9 years of experience in the telecom sector working with various companies such as Ericsson, Tech Mahindra, and ZTE India Pvt. Ltd. He currently works as a Network Design and Optimization Specialist for Ericsson India where he is responsible for tasks such as IPRAN design, transport network design, and identifying business opportunities. He has extensive experience with 2G, 3G, and 4G technologies and protocols.
• 7.3 Years of Experience in TCP/IP networking, Satellite Operations, WI-FI N/W installation, Cisco Troubleshooting, ROUTING & SWITCHING, Network Optimization, Configuration V-SAT and Data Analyzing on GSM (2G) Network & 9 months experience on 3G (WCDMA) system
• Understanding of, BGP, OSPF, EIGRP, LAN/WAN network design, configuration, and troubleshooting.
• Knowledge of L2 technologies-VLANs/VLAN tagging, VTP, Spanning Tree, switched networks
• Take a leadership role on engineering network infrastructure projects to support routing and switching requirements including designing, configuring and troubleshooting large-scale networks.
• Understand the ITIL term IT Service Management (ITSM) based on ITIL best practices.
• Configure the V-SAT with the help of tools NMS.
• Take care of infrastructure and maintenance of the VSAT HUB
Rizwan Ahmad is a telecom and networks engineer based in the UAE with over 10 years of experience. He holds certifications in CCNA and MCSE. He has worked as a project engineer and site engineer for various telecom companies in Pakistan and the UAE, managing projects involving installation and configuration of networking equipment from Cisco, HP, Microsoft and more. He is proficient in technologies including routing, switching, wireless, Windows server administration, and project management software. He aims to leverage his technical skills and experience in a communications or IT engineering and management role.
The document provides a summary of Rahul Kumar's professional experience in telecom domain spanning over 7 years. He has expertise in LTE, 3G, fiber optics transmission including SDH, PDH, Ethernet, DWDM and microwave. Currently he works as a back office engineer providing level 2 support for a Vodafone Qatar project in Bangalore. He has extensive hands-on experience with various transmission equipment, protocols and troubleshooting techniques.
Ahmed Omer Abdelrahman Dahab is a CCNP certified network and telecom engineer with over 4 years of experience in roles such as network engineer, drive test engineer, and site engineer where he has designed, implemented, and optimized networks and telecom systems including voice, wireless, security, and servers. He provides technical support and seeks to continuously improve networks through monitoring and troubleshooting. He has skills in technologies from Cisco, Fortinet, Microsoft and more.
Parminder Singh has over 8 years of experience in network administration, design, implementation and monitoring. He currently works as a senior network engineer for Oceaneering International Services, where he manages networks for offshore oil rigs and vessels. His responsibilities include managing satellite, wireless and 4G LTE connectivity, video streaming, network monitoring and providing 24/7 support to clients in various regions. He has expertise with Cisco routers, switches, security appliances and wireless controllers.
- Syed Atif Shamim has over 9 years of experience in telecommunications and networks engineering. He has worked in roles managing data centers, wireless connectivity, and telecom operations. He has extensive skills in routing, switching, wireless networks, and network security technologies from Cisco, Juniper, Huawei and more.
Prabakaran V has over 10 years of experience as a network engineer. He received a Bachelor of Technology degree in Information Technology with a 61% percentage. His work experience includes roles as a Network Engineer at DSM InfoCom Pvt Ltd and Infonet Asia pvt ltd, and currently works as a GNOC Engineer at Sify Technology ltd. In this role, he is responsible for configuring firewalls, routers, switches and other network devices as well as providing network security, monitoring and troubleshooting. He has expertise in routing protocols, VPNs, firewalls, load balancers and other networking technologies.
This document contains a summary of qualifications and work experience for Avishesh Bhargava. He has over 4 years of experience in telecom and network engineering roles. Currently he works as a Network Engineer at Samsung Electronics India supporting LTE networks including integration, troubleshooting, and testing of eNodeB equipment. Previously he has worked on telecom projects for IBM, Ericsson, and other companies involving installation and maintenance of networking equipment such as routers, switches, and firewalls.
1. SANJAY PARMAR
Contact: +91 9755580490, 9826094778 ~ Email: sanjay_parmar27@rediffmail.com, sanjayparmar27@gmail.com
Address: Ward no-85 Ratanpur Sadak, Misrod, Bhopal - 462024, Madhya Pradesh (India)
Seeking challenging assignment as Senior Engineer /IP engineer in
Operations/Configuration/Maintenance of NSN systems, preferably in the Telecom Sector
PROFESSIONAL SYNOPSIS
→ Dynamic and result-driven Electronics & Communication Engineering Graduate & CCNA Certified with over 9 years of
extensive experience in Field Support, Network Configuration and Maintenance Operations of 2G, 3G, BSC/RNC field in all
kinds of NSN Systems & various transmission equipment’s.
→ Currently designated as IP Engineer (for Airtel) with Nokia Networks Pvt. Ltd.
→ Active participation in Packet Abis & SRAN pilot Project in MPCG.
→ Cisco Nexus Switches configuration and troubleshooting.
→ Ethernet Media testing, provisioning, fault management for Ethernet media, VLAN tagging
→ Cluster Spoke for 3G rollout/ Ethernet Media testing & Provisioning, VLAN tagging
→ 3G Node B configuration in ASR routers.
→ ASR Router and 4948 router configuration for Packet Abis project.
→ DCN routers configuration for NMS visibility
→ Interface and VLAN configuration for new nodes integration.
→ Routing addition for new node.
→ IP Address assignment on interface. (IP pool given by planner).
→ Preventive Maintenance. Includes openingup Router chassis,Linecard modules and Sup Modules, cleaning dust, patching
and labelling etc.
→ Redundancy testing (VRRP, HSRP, GLBP).
→ Bandwidth upgrade of links.
→ Incidental activities and troubleshooting of Eth Media ,switch and router
→ Responsible for Site Installation, Commissioning and Integration of 2G and 3G NSN BTS and SDH/PDH M/W Ring also
monitoring system Alarms, fault identification/rectification/escalation on priority basis.
→ Leading project for Ethernet traffic routing for 3G roll out
→ Accountable for remote login to all traffic nodes on the Network & providing support to field engineers from OMCR also
creating BTS Sites Database in BSC. Involved in creation of Lapd Signalling Links in BSC, regular Health Check of NSN BSC/
RNC, Remote Integration and Software up gradation Support.
Project Handled
→ Packet-Abis pilot Project for 2G GSM System
→ BSC H/W and Software Upgrade S13, S14, S15 and S16 at cluster level.
→ 3G RNC ASR ROUTER CONFIGURATION
→ Flexi Hybrid SVR software upgrading, Equipment Lubrication at cluster level.
→ 3G rollout Node-b integration and commissioning, Ethernet media testing provisioning.
→ Nokia PDH Upgrading with Huawei RTN Node.
→ Huawei commissioning, eth media tagging, troubleshooting.
→ Location Based Service (LBS) configuration in layer 3 switches.
AREA OF EXPERTISE AND EQUIPMENT HANDLING
→ Cisco ASR Router, Nexus Switch, 9001, 9006,4948 series.
→ Nokia 2G BTS Manager 4.0 (Nokia S/W), 4.1 (Nokia s/w), 5.0 (Nokia s/w), & 6.0 (Nokia s/w).
→ Nokia node-b 3G BTS manger 9.1.0.0 and 9.2.0.0
→ Nokia Hopper Manager (Nokia M/W s/w).
→ Nokia BSC 2i, 3i & Flexi BSC (troubleshooting, up gradation, cyclic check-ups).
→ Cisco Catalyst 2950 Switches for NMS Purpose.
2. → Nokia Multi Radio BTS Manager 3.17, 3.18, & 4.1 versions.
→ Nokia Flexi Hybrid, Nokia Flex Metro SDH equipment.
→ Reflection 7.0 for B.S.C. login
→ CeraView 2.0 for Ceragon m/w links.
→ PNMT for NEC m/w links & File Zila for remote & local FTP.
→ TX equipment’s like - NEC, Ceragon 1500P, IP-10 Series, NSN hybrid, & NSN FIU19E.
→ Ceragon IP-10 Node & IP-20 Node.
→ Huawei RTN-910, 950A ,980 series
EMPLOYMENT HISTORY
Time period:- Since 25th Aug’ 2010
Company:- Nokia- Siemens Networks Private Limited, M.P
Role:- BSS -FLM Engineer (for Bharti-Airtel) (25th Aug 2010 to 29th Sept 2016), IP Engineer (Bharti- Airtel) (since 29th Sept)
Key Deliverables across tenure
→ Spearhead as Sr.BSS - O&M Engineer (for Airtel) with Nokia- Siemens Networks Pvt. Ltd. Indore M.P. Adept at Project
planning and management, monitoringand managing equipment installation,troubleshooting,commissioning, servicing,
testing and maintenance to ensure maximum operational availability of telecommunication equipment/ systems.
→ Pre installation Site Survey , Ethernet Media testing, provisioning, fault management for Ethernet media, VLAN tagging
→ Spearheading efforts across 100 Nokia Site, 3Nokia BSC & 5 SDH M/W SDH ranging over large geographically area.
Responsible for handling network planning & implementation.
→ Efficiently handlingoperations & maintenanceof facilities and installation of new systems for maximum service efficiency.
→ Operating & maintaining the network involving corrective & preventive maintenance for trouble free operations with
maximum network up time & efficiency while curtailing the costs/ expenses.
→ Responsible for Site Installation, Commissioning and Integration of 2G and 3G NSN BTS and SDH/PDH M/W Ring also
monitoring system Alarms, fault identification/rectification/escalation on priority basis.
→ Accountable for remote login to all traffic nodes on the Network & providing support to field engineers from OMCR also
creating BTS Sites Database in BSC. Involved in creation of Lapd Signalling Links in BSC, regular Health Check of NSN BSC/
RNC, Remote Integration and Software up gradation Support.
→ Involved in NSN BSC Co Integration, Fault Management, Configure management and Preventive management.
→ Diagnosing& fixingthe faults remotely for all BSS elements also handlingcustomer complaints on the radio part and GPRS.
→ Ensuring timely coordination with Nokia vendors and within the team during problem resolution (SW corrections &
Hardware expansions).
→ Proficiently retuning various RF data parameter like Dedicated TS, TRX priority for GPRS, EDGE allocation, Augmentation
(E1), Traffic shifting, BSC rehoming, Swap Activity, Site creation and Neighbour creation.
→ HandlingNokia BSC (BCSU Addition & H/W Up gradation,BINOS ESB-24 Activity, various activities done with help of Level2
& GNSC and Trouble Shooting of BSC with help of Level2 & GNSC).
→ Handling Infra for Bharti Owned Site, ensure the maximum availability of Power , Minimise the infra breakdown
→ Managing Infra structure of sharing & own Airtel sites, assuring with minimum Breakdown. Conducting regular tests to
ensure the performance capacity of various process control equipment.
→ Stocking and distribution of spares all theengineers’ location with min. allotted spares.
→ Proven skill in Operation and management, monitoring and managing equipment, servicing and maintenance to ensure
maximum operational availability of telecommunication system or equipment.
→ Experienced in commissioning, integration, troubleshooting, software up-gradation and Acceptance Testing of BTS and
various PDH & SDH transmission equipment.
→ Proficient in O&M of Microwave and High-cap Traffic Nodes, TXN NMS and IP.
→ Possess trouble shooting knowledge of BSC & various PDH and SDH Transmission Equipment.
→ Well versed in Knowledge Node B, RNC, TCP-IP RLC, RRC, MAP, and BSSAP Protocol.
→ Highly analytical, self-motivated, efficient and articulate communicator with ability to convey ideas clearly and in easy to
understand manner.
→ Interaction with BSNL authorities for POI connectivity.
3. Time period:- 10th Oct’ 07 – 25th Aug’ 10
Company:- Global Innovsource Private Limited, Mumbai
Role:- BSS - O&M Engineer (Nokia for Airtel)
Key Deliverables across tenure
→ Driving efforts across 100 Nokia Site, 3Nokia BSC & 5 SDH M/W SDH Ring ranging over large geographically area.
→ Planning network & its implementation including 5 SDH & PDH transmission ring with maximum network availability.
→ Commissioning& trouble shooting of SDH & PDH equipment, provisioningE1, and protection define and equipment health
check.
→ Accountable for NMS visibility of SDH & PDH equipment to GNSC and ManagingInfra structureof shared & own Airtel sites
ensuing minimum breakdown.
→ Involving BSC Fault Rectification with help of GNSC ( BSCU, MCMU, OMU fault rectification, h/w change, dip switch setting
check, backplane cable check, FDU & WDU fault)
→ Involving in BSC Configure Management ( PCU addition, ESB configuration, BCSU Addition)
→ Involving in BSC Preventive Maintenance ( BSC health check, BSCU Cyclic Switch over, STM protection Testing)
→ Involving in implementation BSC Oss over IP & GB over IP configuration in Cluster label.
→ Conducting regular tests to ensure the performance capacity of vari ous process control equipment.
→ Installing, commissioning & handling maintenance of BTS, BSS systems & Nokia sites.
→ Performing corrective & preventive maintenance for trouble free operations with maximum network up time & efficiency
while curtailing the costs/ expenses.
→ Troubleshootingof 2.5G NSN BTS, monitoringsystem Alarms,faultidentification/rectification/escalation on priority basis.
→ Ensuring remote login to all traffic nodes on the Network & providing support to field engineers from OMCR also crea ting
BTS Sites Database in BSC.
→ Creating LAPD signallinglinks in BSC, regular health check of NSN BSC/ RNC, remote integration and software up gradation
support.
→ Coordinatingwith Nokia vendors, resolving customer complaints on the radio part and GPRS and also handling corporate
customer AES E1.
→ Retuning various RF data parameter like dedicated TS, TRX priority for GPRS, EDGE allocation, augmentation (E1), traffic
shifting, BSC rehoming, swap activity, site creation and neighbour creation.
→ Handling Nokia BSC trouble shooting, S/W & H/W up gradation, diagnosing & fixing the faults, BCSU addition & H/W Up
gradation,BINOS ESB-24 activity and various other activities done with help of Level2 & GNSC and trouble shooting of BSC
with help of Level2 & GNSC.
→ Overseeing spare management & inventory management at cluster label.
Highlights across tenure
→ Received Appreciation Letter for Nokia Team for 3G roll out.
→ CCNA in Routing and switching.
→ Adjudged as “Best Team” for restoring of Chattarpur BSC in Emergency case, Sept 2013.
→ Lead Role for 3G rollout, Traffic Routing, Media Testing and Vlan tagging on Cluster Level.
→ Entrusted with the extra responsibility of “Quality Engineer and BSS Support Engineer”.
→ Acted as Cluster SPOC for NMS of All SDH & PDH Link and successfully completed NMS visibility of SDH & PDH Node.
→ Co-ordinated efficiently with the entire BSS Engineer for BSS support, RF quality Alarms & TX Related Issue.
→ Contacted CTL for outage report, planned outage and other database management.
→ Played key role in successful completion of BSC S14 & S15 upgrading Activity (H/w Upgrade & FTT.) in cluster
→ Flexi Hybrid S/W upgrades SVR 3.4, SVR 4.0 in SDH Ring in cluster.
→ Handled whole BSC sites rehoming of Chandla BSC during BSC burnt.
→ Instrumental in Up gradation of Flexi hybrid Node SDH & PDH software in cluster.
→ Installed Cisco Switch at Satna BTSOL for SDH NMS successfully.
→ Played key role in successful completion of BSC S16upgrading Activity (H/w Upgrade & FTT.) in cluster
→ RAM Upgrading with Unit diagnosis in all BSC of Cluster for S16.
→ Lubrication Project of Flexi Hybrid IDU Lead at Cluster Level.
4. TRAININGS ATTENDED
→ CCNA certified (Cisco ID: CSCO13121185) in routing & switching in Jan2017.
→ McRNC Operational and maintenance with Trouble Shooting, 4 day program at Nokia Circle Office, Indore M.P.
→ Huawei RTN 905,950A and 980 Configuration, Maintenance and Troubleshooting 4 day program at Bharti Airtel Office,
Indore M.P.
→ 3G BTS Node-b Installation and Commissioning with Trouble Shooting on WebEx Training Season.
→ GSM & CDMA Networks at Centre for Excellence in Telecom Technology and Management, Mumbai
- 1 month training on GSM, CDMA & GPRS Mobile Technology.
→ BSS Refreshers at Nokia- Siemens Networks Pvt. Ltd, Indore M.P
- 1 week training on GSM Technology, BSS system, Nokia BTS and Nokia BSC.
→ “Study of Transmitter, Studio, Earth Station, DSNG” at Doordarshan Kendra, Bhopal.
- 1 month training.
→ VLSI-Designing at CRISP, Bhopal
- 2 weeks training on VHDL Software and EDA Tools
→ Core OHS Training Program at Satna on Apr 2013
- 1 day program on Occupational Health & Safety, Risk Assessment.
→ Core OHS Training Program at Satna on Sep 2014
- 1 day program on Occupational Health & Safety, Risk Assessment.
TECHNICAL SKILLS
→ Knowledge of Microsoft Windows Operating System.
→ MS Office covering MS-Word, MS-Excel and MS-PowerPoint and internet applications
→ Reflection commands for BSC Configuration & Maintenance.
→ Cisco IOS Command for Switches and Router Configuration.
→ Nokia DX system
ACADEMIC PROJECT
Title : Card based Security System
Tools : Application of micro controller and EEPROM Card.
Synopsis : project prohibited unauthorized user to access the system. Each authorized user can access the
system by EEPROM card which has a unique ID & password.
ACADEMIC CREDENTIALS
2007 B.E. (Electronics & Telecommunication), Institute of Technology Bhopal, Barkatullah University with 75.5%.
2017 CCNA (Routing and Switching) (Cisco ID: CSCO13121185).
PERSONAL DETAILS
Date of Birth : 10th April 1985
Languages Known : English & Hindi
Preferred Location : Madhya Pradesh, Delhi, and NCR
Driving License No : MP04/014457/06
Pan No. : AXPP6798L
Passport No. : N2798754
References:
Mr Santosh Parmar: - DGM- RF & Optimization, Idea Cellular Pvt Ltd, Indore M.P. /Contact No- 9826435641.
Mr Bharat Bhushan :- ZOM, ATC Pvt Ltd, Meerut/Contact No-9680199800