INTELLIGENCE THAT MAKES GLOBAL TECHNOLOGIES COME TO

1
 SMART
UTILITY

20th April 2023

Intelligence
Is natural
2
 Content
1. OUR VALUE PROPOSITION 4 . I N T E G R AT E D C O M M A N D &
CONTROL CENTER (ICCC)
2. WHY POWER SECTOR
NEED TO ADOPT 5. GIS & NETWORK
I N N O V AT I V E A N A LY S I S S Y S T E M
TECHNOLOGIES
6. SIMILAR WORK CASE
3 . S U B S TAT I O N STUDIES
MONITORING SYSTEM

3
4
1
OUR VALUE
PROPOSITION

Image to be change based on presentation

Our expertise & Our Geological presence across the globe

BRINGING ADAPTED TO
CREATING TECHNOLOGICAL REVOLUTIONARY THE COMPLEX
TRANSFORMATIONAL LEADERSHIP IN CHANGES ACROSS GEOGRAPHIES
OUTCOME ACROSS 5 INDUSTRY 400+ PROJECTS ACROSS 5
SECTORS
COUNTRIES

STRATEGIC PROJECT
IMPLEMENTATION EXPEREINCE

NATION WIDE PROJECTS

STATE-WIDE PROJECTS

CITY-WIDE PROJECTS

100+
PROJECT
LOCATIONS

5
Amnex’s Product offerings
We have designed and developed salient products to meet defined objectives of various industries & sectors

6
Impact in the real world

50 Million +
39 Million+ 19,200,000+
SQ FT
Total urban Population Farmers Benefit From
of 20 Cities Benefitting Amnex Tech-enabled Land Area Digitized
From Our Smart City Agri Solutions Using Spatial
Solutions Intelligence

Data Fabric & Intelligence

895,107 SQ
2,500+ 15 Terabyte+

Agriculture & Dairy

KM
Solid Waste Collection Big Data Processed
Cultivable Area Monthly On Our ITMS &
Vehicles Connected
Smart City

Monitored From Agri Platforms

Cultivation To Harvest

1,000,000+
25,000+ 150,000+
Liter
Smart Waste Bins
Iot Devices Connected
Managed Daily Daily Milk Collection
In Various Solutions
Monitored
Spread Across 16+
Industries

40,000+ 100,000+
Street Lights Under Village Benefitted
Implementation To Through Our Agriculture
Achieve 60-70% Energy Solutions
Savings

7
Impact in the real world (cont.)

USD 2.6 Million+ 20,00,000+ 83,000 KM+

Daily Mining
PCU Daily Average Operated
Transactions Facilitated Daily Volume of Traffic Trips For City Transport
On Our Mining Platform Optimized At The
Junctions

275,000+ MT 6,000+ 50,000+

Daily Users Of Smart
Daily Minerals Parking Spots Connected Parking Mobile App
Resource & Logistics

Monitoring
Across 1,993 Mines
8,740,000+ 570,000+
15 MTPA
Passengers Across The Mobile App Users For
Managed operations

Mobility
Country Take One Of Transit Details And
for open case coal
Amnex’s Technology Payments
mine
Enabled Buses Everyday
INR
62,000+ 150,000+
Daily Trips Optimized
5,000,000+
Daily Tracking of Mine Daily Transaction
Vehicles Amount For
Transportation Tickets
28,000+ 1 Million+
Daily Transit Payment
Daily Users Of Mineral Transactions Enabled
Monitoring Systems For
Insights
25,000+
37,762 KM GPS Devices Installed
For Effective Transport
Utility Digitally Mapped Management

8
Recognitions of our implementations

Inauguration of AICTSL Vibrant Gujarat Bill & Melinda Gates Appreciation for Urban Mobility India 2018
ITS System by Hon'ble Technology Awards 2018 Foundation Award – deploying solutions for Award – Best Intelligent
Prime Minister of India – Best AI Product Innovation in Big Data GCOE, Jaipur Transport System

Our Project on Agriculture Award for Best ITS (VTS)

ITMS Indore bags selected as a model project by Inauguration of Inauguration of Khanij
system for NMMT from GSRTC VTMS Control Online System for
the digital summit ‘Niti Ayog’ for Implementation Ministry of Road and Room Chhattisgarh
award of Technology in Agricultural Highways
Sector

9
 2
WHY POWER SECTOR

Image to be change based on presentation

NEED TO ADOPT
INNOVATIVE
TECHNOLOGIES

10
Identified Area of Advancement
Here is our hypothesis of the current issues that Power sector is trying to address

Inefficient Cost Optimization due to high dependence Technology

on legacy power purchase agreements and low use of Sector governance and local political-
power markets economic complications
Operational &
Managerial
Inadequate fast ramping capacity in Govt. & Regulation Regulatory &
older generators Political
Discoms
Transmission Overdependence on explicit
state govt. subsidies, tariff cross
subsidies and non-cost reflective
tariff.

Particularly important for

agriculture rich states where
Thermal Generation
subsidy burden is higher
High Line losses due to both
geographical constraint and under
investment Distribution
Billing, Metering and
collection challenges are
typically a combination of
factors including technology
(inadequate meter penetration),
human factors (low availability)
and geography ( spiral and low
density

Customer
Distributed
Variable Renewable Renewable Energy Energy Theft is conducted using variety of novel methods that
Energy include meter tampering or removal, tapping illegally into bare wires,
slowing down electronic meters including magnets
Curtailment of generation due to grid constraint, commercial Inadequate demand side management and a disproportionate
conditions and inadequate RE forecasting results in inefficient growth in peak demand characterized by a higher peak-to-average
operation of low or no marginal cost generators ratio

11
12
3
SUBSTATION
MONITORING SYSTEM

Image to be change based on presentation

Our Solution offerings
They are meticulously designed to address the challenges faced by the stakeholders

06 HES/DAS Monitoring of
01
and ADMS Incoming &
Software & Outgoing
Integrations Feeders
A low-cost indigenous technology for
automation and business process improvement
for substation monitoring.

The System would help in monitoring power

05 02
Monitoring Substation Monitoring of
supply, proper planning, decision support
of Capacitor Monitoring Power
and taking corrective actions on the Bank System Transformer
business activities in addition to
components
transparently disseminating the power
supply status.

To meet the above-mentioned objective,

Parameters of sub-station equipments are Monitoring of
to be captured and analyzed at local PC as well Monitoring of
Substation DC Substation
as at centralized platform. auxiliary power distribution
supply
04 03
Transformer

13
Substation Monitoring System Architecture

Sensors/MFM S/S equip. Gateway Communication Layer Server & Storage

MFM-Smart Meter MPLS

OLTC (tap
Power
position)
Transformer
Oli & winding
temp. indicator Dual SIM
Feeder Redundant
Router
Remote link Data Acquisition Server Central Server
Terminal Unit (DAS)
MFM-Smart Meter
(FRTU)/
Gateway
Set of CT Station
Distri.
IED- Intelligent Transformer
Electronic Device

MFM-Smart Meter Local

Incoming GPS Time
Monitoring
and Outgoing Server for time
(HMI) at S/S
IED- Intelligent Feeders synchronisation
Electronic Device

MFM-Smart Meter
Capacitor
Bank
IED- Intelligent
Electronic Device

DC-Smart Meter
DC Power
IED- Intelligent Supply
Electronic Device System

14
Substation Monitoring System Components

Incoming and Outgoing Feeders

1. Monitoring of Incoming and Outgoing Feeders – HT Feeder (33 KV Incoming), LT Feeder (11 KV Incoming), LT Feeder (11
KV Outgoing): Voltage, Current, Power, Energy and Power Factor
▪ 33 kV incomer of Power transformer HV side vs 11 kV incomer i.e., Power transformer LV side (i.e., Power transformer
loss)
▪ 33 kV incomer of Power transformer HV side vs 11 kV outgoing feeders (i.e., S/s loss)
▪ 11 kV incomer i.e., Power transformer LV side vs 11 kV outgoing feeders (i.e., 11 kV Bus loss)
▪ Switching station 11 kV incomer vs 11 kV outgoing feeders’ loss is to be calculated.
2. Feeder control action (ON/ OFF) under ADMS (Automatic Demand management Scheme) for all feeders. (Integration with
ADMS)
3. Alert message indicating which feeder is tripped under ADMS

Power Transformer

1. Monitoring of power transformer: Voltage, Current, Power, Energy and Power Factor
2. Monitoring of Transformer Oil and Winding Temp. and Oil Level
3. OLTC - On Load Tap Changer (Def: Enable voltage regulation and/or phase shifting by varying the transformer ratio under
load without interruption)
4. Monitoring of Differential and Buchholz relay

Station Distribution Transformer

1. Monitoring of Substation distribution Transformer: Voltage, Current, Power, Energy and Power Factor

15
Substation Monitoring System Components

Substation DC auxiliary power supply

1. Monitoring of DC Power: Voltage, Current, Power and Energy

Capacitor Bank

1. Monitoring of capacitor bank: Current, Voltage, Power Factor, Under Voltage indication, Over Voltage indication, Neutral
current measurement (Healthiness of Neutral Displacement Relay)
2. Indication for taking bank in circuit depending on load condition
3. Measurement of instantaneous values of MW, MVAR, KV and Connected capacity of capacitor Bank

Software and Integration

1. HES/DAS software for local monitoring (LMS: Local Monitoring System)

2. HES/DAS software for centralized monitoring: Visualization, Reporting and Analytic Application
3. Computation of reliability indices such as SAIDI, SAIFI etc.
4. Implementation of ADMS
5. Implementation of Load Shed Application (LSA)

16
Sample Single Line Diagram for Substation (S/s)

17
Typical layout of a power transmission network

A power transmission network, also known as an electric

transmission network or grid, is a system of high-voltage power
lines, transformers, and other equipment used to transmit
electricity from power plants to substations and distribution
networks.

A: Primary power line side B: Secondary power line side

1. Primary power line 7. Current Transformer

2. Ground wire 8. Lightning arrester
3. Overhead lines 9. Main Transformer
4. Voltage Transformer 10. Control building
5. Disconnector 11. Security fence
6. Circuit Breaker 12. Secondary power lines
7. Current Transformer
8. Lightning Arrester

18
Circuit Breaker

Power Circuit Breakers (PCBs) are

comprised of three identical poles
mounted on a common
frame or on individual supports. Each
breaker pole consists of one or more
sealed chambers
where the current interrupting process
takes place, plus an intermediate set of
insulating rods
and accessories to transmit the
mechanical power needed to open or close
the breaker power
contact.

20
Disconnector

Disconnectors are equipped with several

devices including:
• Motor and gear drives (per pole, in case of
separate operating mechanisms).
• Facilities for manual operation.
• Auxiliary switches reflecting of disconnector
position (open or closed).
• Selector switch to choose local/remote
operation mode.
• Push buttons for closing/opening local
commands.
• Key arrangements for interlocking purpose.

21
Power Transformer

Power transformers are the

larger apparatus in a substation and
are composed of a primary winding,
a secondary winding, and in some
cases, a tertiary winding.
These windings are constructed of
copper or aluminum wires. All
windings are centered on a common
magnetic core made of steel sheets.
The complete set of windings and
magnetic core is immersed in a
metallic tank filled with dielectric oil
to which a lot of accessories are
attached and these are needed for
optimal performance of the
transformer.

22
Station Distribution transformer

In the substation yard some medium or low

voltage elements are also installed, which are
required for different functions. One of them
is the outdoor auxiliary power transformer in
which a primary winding is connected to an
external distribution line or to a tertiary
winding of a power transformer, and its
secondary winding supplies power to the
substation auxiliary system.

23
Sensors and signals
Signals Associated with circuit breaker

24
Signals Associated with disconnector

25
Signals associated with voltage transformers

Signals associated with current transformers

26
Signals associated with power transformers

27
28
 4
INTEGRATED COMMAND

Image to be change based on presentation

& CONTROL CENTER
(ICCC)

29
Solution Architecture of ICCC Platform
Proposed solution architecture is scalable and loosely coupled to support increase in volume of transactions

Integrated Command & Control Center (ICCC) Platform

Sub-System Provisioning & Service Layer Operation Center

Contact Center IoT Ops ML Composer Chatbot Incident Management

Wireless Communication Situational Management

API Common Support System
VMS & VA Field Workforce App
API and ESB Media Messaging
BPM GIS MEAP
GIS & Network Analysis Store Server Dashboards

Security-Logging & Monitoring

Predictive analytics
ETL
External Application Data
SSIS
Data Analytics Engine Data Resource
SCADA/RT-DAS
Server
Stakeholder Engagement
ADMS Business Intelligence
IoT
Real Time Portal Chatbot
ERP AI/ML
Database
Common Case
Backbone Messaging Management
App
Network Protocol

AMR & MDM Server

Adaption

Complex Event Processing Departmental Operation

Smart Sensor Data Engine Center
BigData
Data Normalization
and Enrichment
Transmission & Distribution

Sensor & Application Data Management Application & Solution

Integration System Data Processing System
Ecosystem System Accelerators

Sense > Collect > Aggregate > Normalize Process Storage & Analyse Act
Stage-1 Stage-2 Stage-3 Stage-4 Stage-5

30
System Architecture for ICCC

31
ICCC Platform Use-case matrix
ICCC platform framework designed in such a way that can handle variety of domain use-cases effectively

Visualize Act Monitor

1. Geo-spatial representation of 1. Consolidated generation of alerts 1. Out of box integration with

assets and notifications and notification SMS, Emails and WhatsApp
2. Geo-spatial correlation and 2. Incident generation and task 2. KPI Definition and
Friend/Foe Analysis management for incidents Measurement
3. Single sign-on for native 3. SOPs configured for out of the 3. Domain centric definition of
applications box for Energy domain business rules
4. What-If Analysis for selected 4. Common Operating Picture
domains across Domains

32
ICCC Platform
A comprehensive collaboration platform for effective and efficient decisions
Integrated platform for aggregation of information &
insights
• Open/able to integrate with any type of sensor or platform being
used for the mining services irrespective of the technology used.
Agnostics to sensor technologies such as SCADA, LoRA, ZigBee,
GPRS, Wi-Fi, IP Camera etc.

Effective Policies and Events

• Allow policy creation to set of rules that control the behavior of
infrastructure items. It also allows Default, Time- based, Event-
based and Manual override polices creation

Collaboration and Event Correlation

• Ability to bring in multiple stake holders automatically into a
common collaboration platform in response to a SOP defined to
handle a particular event

Analytics Engine
• Artificial intelligence-based ICCC analytics platform module to
maximize business value through advanced machine learning
capabilities

33
1. ICCC Web-based Portal - Dashboard
Provides live performance dashboards for implemented smart systems and asset management

Live Statistics Dashboard

• Displays all the live status of the assets available in each domain
in particular organisational structure
• Summary of the parameters in the form of high performing and low
performing value
• Provides real-time asset status updates for each domain along
with statistical summary on high & low performing Assets/Areas

KPI Dashboard

• KPI dashboard displays the domain/vertical specific KPIs with

an option to enable/disable with the simple toggle button
• KPI dashboard displays the overall status of the different
KPIs for all the domains

34
1. ICCC Web-based Portal - Surveillance Dashboard
Provides live surveillance dashboards for an Operator to take necessary actions

Map View Surveillance Dashboard

• Displays the list of Alerts with its categorisation and the option for
Operator to initiate the Action/SOP/Dismiss
• Operator has an option to fetch the live stream

Video Wall View

• Displays the grid view streaming the videos through the

cameras installed at the strategic locations across the
Substation & Distribution Station premises

35
2. ICCC – Integration with GIS Map
Provides ICCC integration with GIS map

GIS Map Integration

• ICCC platform has the capability to consume GIS map/layer

services
• User can select a particular sensor mapped on the GIS map to view
different sensor parameters/attributes, such as Name, Status
(on/off)

Sensor Alarm Status

• User can assess the status of the sensor alarm through

color and icon

36
3. Standard Operating Procedure (SOP)
Provides Real-time incident Management and SOP management with system driven escalation mechanism

SOP Configuration-Workflows/Escalation level

• Operator can define a SOP on manual or automatic actions on

real time data
• Operator can define multiple escalation levels by selecting user
role on each level, maximum resolution time duration and can
define tasks which needs to be executed once alert is triggered
• Operator can select multiple incidents from multiple domains for
a single SOP

SOP Configuration – If-then else conditions

• Operator has an option to define multiple ‘if-then’ conditions

• Operator can select a particular User for First level
escalation and select a notification option SMS/Email

37
3. Standard Operating Procedure (SOP)
Provides Real-time incident Management and SOP management with system driven escalation mechanism

SOP Upload Supporting Documents

• Option to upload the documents, images, files while launching

the SOP

Incident & Alert Dashboard

• Real time alert dashboard where operators can view all the
triggered alerts from multiple systems & triggered correlated
events with a functionality to handle, change SOP, view
details like image or video evidence as well as identified
camera feeds.

38
4. Alert and Incident Management
The platform facilitates the comprehensive Incident Management module

Alert Panel

• Alert panel displays the alerts generated by the field sensor

• Operator can select the particular alert and zoom to camera
location on the map

Alert Action
• Operator can further select an option to view the status of
the sensor, create/abandon the incident

39
4. Incident Management
The platform facilitates the comprehensive Incident Management module

Alert Authenticity

• Operator can vet the authenticity of the alert by live video

stream of the camera

SOP Delegation

• If an incident is created, the generated SOP will be

delegated to the respective nodal agent/field operator.
• SMS/email will be triggered to inform the nodal agent/field
operator

40
4. Incident Management - Smart Event Correlation
Provides easy event configuration and take the decisions on trigger levels and threshold values.

Event Configuration- Geographical Boundary

• Administrators can define boundary using existing boundary or

manual boundary. In manual boundary users can select to draw
polygon, draw circle or within radius functionality as option to
define boundary

Event Configuration – Threshold Value & Colour

code

• Operators can add multiple ranges for the KPI values as well as
define its color code to view it on the Heat map of KPI
dashboard

41
5. ICCC – Incident Monitoring Dashboard
Provides live Incident Monitoring Dashboards to monitor the progress status of the incidents

Incident Progress Monitoring Dashboard

• The platform has an option to monitor the incident progress status

i.e. live, closed and work in progress

Incident Configuration

• The platform supports an option to customize the

dashboard domain-wise
• One can select the required alert/incident parameter to
enable/disable

42
6. Reporting and MIS
The platform facilitates the powerful reporting and MIS engine

Report Templates

• The platform has pre-defined reporting templates for diversified

domains
• The platform has an option to create custom reports as per the
client’s expectation

Auto Report Generation

• The platform has an option to generate the automatic

reports with different attributes such as, set of users,
frequency (daily/weekly/monthly) of report generation
and custom attribute selection
• The platform has an option to export the report in
different formats, such as pdf, excel, csv

43
7. Advanced User and Role Management interface
The platform facilitates the simplified mechanism to create new Roles with the required access rights / privileges

Role Management

• New roles can be created with different accessibility of system

access rights along with add, edit, delete privileges.

User Creation

• Outline is providing a facility to configure users based on

their respective domain access along with the boundary
of jurisdiction.

44
45
46
5
GIS & NETWORK
ANALYSIS SYSTEM

Image to be change based on presentation

GIS & Network Analysis System

GIS & Network analysis solution can be implemented for the whole HT & LT network in a comprehensive way to maintain the
electrical network, and do network planning and analysis of network parameters.

47
Key Features of GIS & Network Analysis system

• Robust Software Application for creation, representation, change management of entire Electric
Network, Geo-referenced Network Elements, Distributed Generation Points, Consumer
Installations and interconnectivity in Single Line Diagram (SLD) view, overlaid on Maps.
• System will be capable of managing activities on detailed inbuilt, dynamic information of
Network, Geospatial, and Consumer Licensed area around 3 lacs sq.km.
• User will be able to post critical/non-critical information of individual asset or network part such
as damages, defects, emergencies, obstacles, Right of Way, force majors, routine inspection
observations. Such information to be made available for work flows of other applications.
• In case of Supply Off incidents, Faults, Planned outages System should be able to indicate give
affected portions of network based on multiple inputs from MDAS, SCADA, DMS, CRM, CCC in
real-time view. The system will trigger SOPs based on the incidents recorded.
• Mapping all relevant Distribution system assets

48
49
6
SIMILAR

STUDIES
WORK CASE

Image to be change based on presentation

50
51
Disclaimer

This presentation is prepared by Amnex Infotechnologies Private Limited. This document and information contained
herein are confidential and the property of Amnex. It is for restricted distribution and for the sole purpose of exploring
business opportunities between Amnex and the receiving party. Any information or part thereof shall not be disclosed,
reproduced, published or redistributed to any third-party or use for any other purpose without the express written
permission of Amnex.

Every care has been taken in preparing this document and opinions and projections found in this presentation reflect our
opinion as of the presentation date and are subject to change without notice.

Though every effort has been made to avoid errors or omissions in this document, errors might creep in. Neither Amnex
nor any of its affiliates and/or its directors, officers, employees shall in any way be responsible or liable for any losses or
damages whatsoever which any person may suffer or incur as a result of acting upon anything stated or inferred in or
omitted from this presentation.

52
 We look forward to hearing
from you!

Thank you!
Amnex Infotechnologies Pvt. Ltd.
1301, Mondeal Heights, B -Wing , S. G. Highway,
Ahmedabad-380 015, Gujarat, India (HQ)
www.amnex.com

India: +91 9727747451 USA: +1 281 217 5534 Dubai: +971 55 552 4764

53 53