Tejaswi Boppudi

Project: AT&T (LLD DESIGN)

Client: AT&T

Region: SOUTH-EAST

Software's used: G-Technology (ARMSI-DT), Proge-CAD, WALDO

Role: Production and QC, QC MARKUPS

(SE)LLD-LOW LEVEL DESIGN

The Project includes FTTX, FTTP, FTTH Technology. Fiber distribution done throughout the DA (Distribution Area) from CO location to the customer. After F1 pairs reaching the PFP location.There it starts the F2 pair’s distribution. Various type of fiber cables are placed with required size. Aerial Network and Buried Network place key role in it. Aerial cables transfer from Pole to Pole and Buried Network from Handhole to Handhole. In junctions we use SPLICES and THETHER. As Inputs the KMZ file is provided by HLD team. We work on ARAMIS-DT. That includes Map window, Detail window and Work prints, After Completion of feature placement like cables, handhole, terminals and conduits in GEO. Then we start working on designing work prints. Work Prints will be designed as per HLD KMZ File. Key maps and vicity maps are also included in it. Then the completed file will be sent to QC & QA.

Project: AT&T (LLD DESIGN).

Client: AT&T.

Region: SOUTH-EAST.

Software's used: G-Technology (ARMSI-DT), O-Calc Pro, IKE & WALDO.

Role: Design Specialist- QC & QA, Pole Loading Analysis CYIENT (AT&T).

AT&T is the leading Telecom giant in USA; we at Cyient received the onshore and offshore work which is described below in detail: The overall goal FTTP build is to supply fibers for all residential living units and businesses in the prescribed Distribution Area (PON Serving Area-PSA) to ensure that when a customer orders service that the order can be processed, dispatched and installed in a timely manner. This includes the placement of Drop-Pipe (inner duct material) structure from the FST to private property lot lines at the correct location for the Installation Technician to be able to use as a path for fiber drop placement and avoid future delays in installation of service to customers. Fiber for future services should be extended to business locations where property owner permission is given for cable and terminal placement. All business addresses fed by the fiber terminal will be uploaded into Granite via AOTX as part of the project. Business locations that are copper drop fed will be served via an FST and fiber drop(s). If permission is not granted, a splice, future splice loop, or tether point is to be left for future extensions to the business location and should be placed in a workable/ accessible location for that business/building location. Plan and Design the High-level Design (HLD) for the required area. Determining the size of the fiber cables and size of FST's as per the living units that are being served from the respective PFP in this PON serving area (in HLD design). Utilization of fibre cables (24F, 48F, 72F, 144F, etc.) based upon the field requirement. Performing Low Level Design (LLD) / detail design after receiving the confirmation and acceptance on the HLD from the Client. Quality Check (QC) & Quality Assurance (QA) on the LLD design, Planning and design of F1 (Feeder) network.

Project 1:

Client: Metronet Telecommunications (HEXAD)

Project: Metronet (HEXAD)

Software’s used: OCALC Pro, IKE Office, and Google Earth.

Role: Production & Quality Check.

Description: The main objective of this project is to analyze the Load on Pole to provide the most possible ways to place the Metronet Fiber cable on the poles based on the Pole Loading Analysis. Metronet will provide the IKE images of the Pole, Google Earth network of the territory and Utility network maps. The technologies used were OCALC PRO and IKE OFFICE. Need to Create the Pole with all the components on it and to and fro conductors. Need to Create POST for pole loading analysis and we will submit Make Ready Engineering Sheet, PPLX Files and Analysis Reports, Areal Maps.

As part of the Project:

• Creating the Poles with Type, class and species, Height of pole and AUX data with load cases.
• Creating the Crossarms and insulators with orientations and facing.
• Creating the Power conductors by measuring the lengths from Google Earth and conductor size and material from IKE Office.
• Updating the exiting Anchors and stub poles and proposing the new if necessary (in Dead end cases and Junction cases particularly).
• Creating the communication cables AT&T for Telco, COMCAST for CATV and FIBER for OTHER COMM from IKE Office.
• Maintaining proper clearances within the cables for placing the Metronet Fiber.
• Following proper specs provided by customer. Creating MRE Excel sheet by using the Analysis

Project 2:

Client: Comcast Corporation

Project: Comcast

Role: Production & Quality Check.

Description: The main objective of this project is to analyze the Load on Pole to provide the most possible ways to place the Comcast Fiber cable on the poles based on the Pole Loading Analysis. Comcast will provide the LIDAR of the area, Google Earth network of the territory and Utility network dwgs. The technologies used were OCALC PRO. Need to Create the Pole with all the components on it and to and fro conductors. Need to Create PRE and POST for pole loading analysis. So, we will submit and make ready Engineering Sheet, PPLX Files and

Analysis Reports, Areal Maps, AT&T JU Application PDF’s.

As part of the Project:

• Creating the Poles with Type, class and species, Height of pole and AUX data with load case NESC 17 Grade C Heavy.
• Creating the Crossarms and insulators with orientations and facing.
• Creating the Power conductors by measuring the lengths from Orbit and conductor size and material from Specifications provided for the Territory.
• Whenever we are unable to capture the Pole Data from LIDAR (LIDAR Vehicle Not Accessible) we will raise tickets for the Poles then Client will provide the Scaled Images.
• Updating the exiting Anchors and stub poles and proposing the new if necessary (in Dead end cases and Junction, Angle pole cases particularly).
• Creating the communication cables FIBER for COMM.
• Creating MRE Excel sheet by using the Analysis Reports

Project 3:

Client: ZIPLY

Project: ZIPLY FIBER

Role: Production.

Description: The main objective of this project is to analyze the Load on Pole to provide the most possible ways to place the ZIPLY Fiber cable on the poles based on the Pole Loading Analysis. ZIPLY will provide the Katapult of the area, Google Earth network of the territory and Utility network dwgs. The technologies used were OCALC PRO. Need to Create the Pole with all the components on it and to and for conductors. Need to Create PRE and POST for pole loading analysis. Will submit make ready engineering sheet, PPLX files and analysis reports.

As part of the Project:

• Creating the Poles with Type, class and species, Height of pole and AUX data with load case NESC 17 Grade C Heavy.
• Creating the Power conductors by measuring the lengths from Orbit and conductor size and material from Specifications provided for the territory.
• Creating the Power conductors by measuring the lengths from Orbit and conductor size and material from Specifications provided for the territory.
• Updating the exiting Anchors and stub poles and proposing the new if necessary (in Dead end cases and Junction, Angle pole cases particularly).
• Creating the communication cables FIBER for COMM.
• Creating MRE Excel sheet by using the Analysis Reports.