IS484 IS Project Experience (FinTech)

• Working dashboard that provides a real view of relevant sectors and entities.
• View provides contextual correlated sentiment assessment of entities.
• View provides trigger notifications when significant activity threshold is breached (optional).
• View provides collected historical information and perform system end to end risk and returns on entities.
• Ability to collect data from different sources.

Students are free to use any visualization & analysis tools, generative AI, APIs and technology of the team’s choice. However, the solution should be hosted in an Azure Cloud.

Project sponsors will provide 5 public names, and suggested data sources on which the output should be created. We will review at regular intervals the outputs to refine requirements and usability of output. We will provide support on how to perform identity matching.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Hossain, Mohammad-Jahangir
email TBD

Project Supervisor: TBD
email TBD

• A working and intuitive UI with the ability to create, update, and review portfolios.
• The UI should show suggestions and red flags with the source of information.
• Ability to generate and review orders.
• Portfolio UI to show working orders and positions (with real-time updates from backend data feed).
• A dashboard to display analytics to show the portfolio performance.

Project sponsors will share sufficient context so students can understand how Asset Management functions. Mentors will guide students on portfolio construction and constraints to be applied and will provide sample instrument details.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Avula Chandra Shekar, Mayur Nagthane and Mani Kavandampatty
email TBD

Project Supervisor: TBD
email TBD

• Web application that can summarize publicly available social media and news sources for news about clients and recent posts/views of clients.
• Excellent user experience.
• Machine learning model that can do the identity matching.

Students are free to use any visualization & analysis tools, generative AI, APIs and technology of the team’s choice. However, the solution should be hosted in an Azure Cloud.

Project sponsors will provide 5 public names, and suggested data sources on which the output should be created. We will review at regular intervals the outputs to refine requirements and usability of output. We will provide support on how to perform identity matching.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Seema Sanghavi
email TBD

Project Supervisor: TBD
email TBD

• Working prototype of digital token transfers.
• Measurable proof that cross-border intragroup corporate payments can be cleared and settled in near realtime using DLT.

Project sponsors will share sufficient context so students can understand how the Digital Token Transfers & DLT together can speed up payments (within select OCBC group entities). Students may use the existing OCBC Blockchain platform & Payment Engine to execute digital token transfers.

Project Coordinator: Lim Dedy Daryono
limdd@ocbc.com

Project Mentor: Paladugu Narendra Kumar (Naren)
email TBD

Project Supervisor: TBD
email TBD

In this project, we will dive into zero knowledge proofs, a revolutionary concept in the field of cryptography and privacy. Zero knowledge proofs are a mathematical technique that allows one party, called the prover, to convince another party, called the verifier, that a certain statement is true without revealing any additional information about the statement itself.

This project aims to utilize Zero Knowledge Proofs in the enhancement of data privacy and protection of the Bank’s customers. Such Zero Knowledge Proofs are intended to be used / integrated alongside the Bank’s blockchain technology stack, such as smart contracts and microservices.

• A review of existing literature, including academic papers, case studies, and real-world implementations of zero knowledge proofs.
• An analysis of the strengths and weaknesses, underlying mathematics, and algorithms behind zero knowledge proofs. Identification of potential challenges or security concerns and proposed strategies to address them.
• A proof-of-concept prototype based on secure and efficient transaction auditing using Zero Knowledge Proofs.

Project sponsors will share sufficient context so students can understand its use cases, discussing the benefits and limitations of implementing zero knowledge proofs and how it can benefit end users. The project details, explanation of the zero knowledge proof applications and other useful details will be shared.

Project Coordinator: Ravindra Kumar
ravindrakumar@ocbc.com

Project Mentor: Jorden Seet
email TBD

Project Supervisor: TBD
email TBD

• A data analytics hub capable of generating actionable insights, not limited to just for the organization's events, webinars, and marketing activities.
• Implementation of a versatile system that can seamlessly integrate with different data sources including CRM systems, social media platforms, and email marketing tools.
• Generation of KPI analysis reports on a monthly, quarterly, and annual basis.
• Gather and track feedback from various engagement activities.
• Automate event registration processes, streamlining attendee registration, confirmation, and communication, and integrations with the data hub for comprehensive analysis.

Project sponsors will provide context to help understand the significance and value of the data analytics hub including detailed insights into current workflows and processes, and information about platforms and types of data collected, facilitating seamless data integration and analysis.

Project Coordinator: Venice Kong Min Li
venicekong@uobkayhian.com

Project Mentor: Charles Ng Guiquan
charlesng@uobkayhian.com

Project Supervisor: TBD
email TBD

• Automated rewards points system for both the company and the client.
• Scalability for potential integration into a separate ongoing mobile project.
• An intuitive platform for clients to easily earn, monitor, and utilize points.
• A dashboard for tracking the redemption of various rewards, including analytics on which rewards are redeemed the most, user preferences, and trends over time.
• Reporting features to provide insights into the effectiveness of the rewards points system, including metrics such as client engagement, redemption rates, and ROI.

Project sponsors will share sufficient context so students can understand how/where this dashboard brings value to users including detailed information about our current rewards program, user feedback and suggestions for UI/UX revamp, access to relevant data and resources for integration, any regulatory guidelines and compliance requirements.

Project Coordinator: Alvin Cheong Yi Wei
alvincheong@uobkayhian.com

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

Portfolio managers struggle with real-time risk assessments for dynamic markets, hindering optimal asset allocation and portfolio optimization. Given that Artificial Intelligence excels in big data, predictive analytics could enhance investment edge by integrating diverse data from sentiment, economics, fundamental, and technical indicators.

• An AI/Machine Learning model for a dynamic Risk Appetite Indicator (0-10) to guide asset allocation into major asset classes such as equities, bonds, and commodities.
• The AI model should be capable of continuous learning and adjusting its predictions to evolving sentiment, economics, fundamental, and technical data. Data could be web-scrapped from sources such as FRED (Federal Reserve Economic Data), World Bank, and Yahoo Finance.
• Incorporate sentiment analysis from news, social media, and financial reports to objectively feed the Risk Appetite Indicator.
• An intuitive user interface which exposes the underlying AI model and provides actionable insights into asset allocation.

Project Coordinator: Edmund Chan
edmund.chan@tigerfund.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

Portfolio managers struggle with real-time risk assessments for dynamic markets, hindering optimal sector allocation and portfolio optimization. Given that Artificial Intelligence excels in big data, predictive analytics could enhance investment edge by integrating diverse data from sentiment, economics, fundamental, and technical indicators.

• An AI/Machine Learning model for a dynamic Risk Appetite Indicator (0-10) to guide sector allocation into various GICS sectors such as Information Technology, Energy, Financials, etc.
• The AI model should be capable of continuous learning and adjusting its predictions to evolving sentiment, economics, fundamental, and technical data. Data could be web-scrapped from sources such as FRED (Federal Reserve Economic Data), World Bank, and Yahoo Finance.
• Incorporate sentiment analysis from news, social media, and financial reports to objectively feed the Risk Appetite Indicator.
• An intuitive user interface which exposes the underlying AI model and provides actionable insights into sector allocation.

Project Coordinator: Edmund Chan
edmund.chan@tigerfund.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

Existing features: (to be migrated)

• Dashboard view of customer accounts and statistics.
• Drill down view of deposit and loan accounts.
• Fund transfers: setup beneficiaries, transfer funds, bill payments, setup standing instructions.
• Setup notification preferences, balance/transaction trigger alerts.
• Payments – upload payment instructions for interbank clearing and settlement.

New features:

• Upload corporate financial statements, extract financials using NLP models.
• Generate credit score based on financial ratios.
• Apply for corporate loans.
• Manage existing loans, e.g., partial/full loan repayments.
• Setup schedule and rules for cash concentration.
• Trade Finance – Letter of Credit, Bill of Lading, Bill of Exchange, Factoring/Bill Discounting.

A previous IS484 team has already migrated the required SMU tBank backend services to OutSystems. All the API documentation will be provided.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

• Register new bank. Edit existing bank details.
• Manage settlement rules for a bank, and illiquidity cases which trigger them.
• View the status of a given payment.
• Setup settlement schedule, and fees, for a bank.
• Invoke settlement on demand.
• View settlement account with central bank.
• Reports – Bank Report, Clearing House Revenue Report, Exception Report

A previous IS484 team has already migrated the required SMU tBank backend services to OutSystems. All the API documentation will be provided.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email

• Scans publicly available social media and news sources for news about clients and recent posts/views of clients.
• Summarizes these views into a digestible format for Client Advisors.
• Ensures each data point has a source link, that would enable the Client Advisor to verify that the subject is indeed their client.

Students are free to use any visualization & analysis tools, generative AI, APIs and technology of the team’s choice. However, the solution should be hosted in an Azure Cloud.

Project sponsors will provide 5 public names, and suggested data sources on which the output should be created. We will review at regular intervals the outputs to refine requirements and usability of output. We will provide support on how to perform identity matching.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Tim Way
email TBD

Project Supervisor: Dennis Ng
dennisng@smu.edu.sg

• Turns the text from conversations into a transcript. (The conversation should be in English.)
• Identifies who is talking and identifies whether they are engaged in the conversation.
• Generates a summarized minutes of the conversion that includes the key topics that were discussed and the key actions. The minutes can then be sent to all parties.
• Provides a visualization that shows the engagement level (length of time talking) of all parties involved in the conversation.

Students are free to use any visualization & analysis tools, generative AI, APIs and technology of the team’s choice. However, the solution should be hosted in an Azure Cloud.

Project sponsors will make themselves available to be recorded in 3 conversations. We will review at regular intervals the outputs to refine requirements and usability of output.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Tim Way
email TBD

Project Supervisor: TBD
email TBD

• Analyses different monitoring tools of infra / middleware / applications and consolidates information based on location, severity, and service status.
• Provide a high-level view of mission critical services.
• Provide a drill down view on any incident under management.
• Provide notifications on incident occurrences based on location and severity.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Raj Vedachalam
email TBD

Project Supervisor: Mahesh Goel
maheshgoel@smu.edu.sg

• Working prototype of digital token transfers.
• Measurable proof that cross-border intragroup corporate payments can be cleared and settled in near realtime using DLT.

Project sponsors will share sufficient context so students can understand how the Digital Token Transfers & DLT together can speed up payments (within select OCBC group entities). Students may use the existing OCBC Blockchain platform & Payment Engine to execute digital token transfers.

Project Coordinator: Lim Dedy Daryono
limdd@ocbc.com

Project Mentor: Paladugu Narendra Kumar (Naren)
email TBD

Project Supervisor: TBD
email TBD

In this project, we will dive into zero knowledge proofs, a revolutionary concept in the field of cryptography and privacy. Zero knowledge proofs are a mathematical technique that allows one party, called the prover, to convince another party, called the verifier, that a certain statement is true without revealing any additional information about the statement itself.

This project aims to utilize Zero Knowledge Proofs in the enhancement of data privacy and protection of the Bank’s customers. Such Zero Knowledge Proofs are intended to be used / integrated alongside the Bank’s blockchain technology stack, such as smart contracts and microservices.

• A review of existing literature, including academic papers, case studies, and real-world implementations of zero knowledge proofs.
• An analysis of the strengths and weaknesses, underlying mathematics, and algorithms behind zero knowledge proofs. Identification of potential challenges or security concerns and proposed strategies to address them.
• A proof-of-concept prototype based on secure and efficient transaction auditing using Zero Knowledge Proofs.

Project sponsors will share sufficient context so students can understand its use cases, discussing the benefits and limitations of implementing zero knowledge proofs and how it can benefit end users. The project details, explanation of the zero knowledge proof applications and other useful details will be shared.

Project Coordinator: Ravindra Kumar
ravindrakumar@ocbc.com

Project Mentor: Jorden Seet
email TBD

Project Supervisor: TBD
email TBD

• Chatbot Interface: Develop an intuitive and user-friendly chatbot interface that VCs can interact with easily.
• Data Integration: Integrate the chatbot with diverse data sources, including news articles, social media feeds, startup databases, industry reports, and financial data. Implement data retrieval mechanisms that ensure the chatbot gathers the most current and relevant information.
• Integration: Integrate the GPT-3.5 language model into the chatbot's framework, leveraging its natural language understanding and generation capabilities to facilitate meaningful interactions with VCs. Also consider using Langchain and Prompt Engineering.

Project sponsor will provide sufficient context so students can understand how this chatbot brings value to users. We will provide relevant databases, APIs, and expected chatbot interface design.

Project Coordinator: Joey Chua
email TBD

Project Mentor: Xiao Dong
email TBD

Project Supervisor: Dennis Ng
dennisng@smu.edu.sg

By harnessing the capabilities of LLMs, such as GPT-3.5, this project will significantly streamline the process of distilling essential information from pitch decks and generating comprehensive investment memos, enabling faster decision-making and enhanced communication within the investment process.

• Pitch Deck Analysis: Develop a module that ingests pitch deck files in various formats (PDF, PowerPoint, etc.), using Optical Character Recognition (OCR) and text extraction techniques.
• Text Summarization: Implement LLM-based text summarization algorithms to condense the key points and content of the pitch deck, e.g., company details, value proposition, market positioning, financial projections, and team background.
• Investment Memo Generation: Generate comprehensive investment memos which include company overview, market analysis, competitive landscape, growth potential, risks, financial projections, and investment rationale.
• Customization and Formatting: Design a user-friendly interface that allows users to customize the generated investment memos. Users should be able to edit and format sections, add additional insights, and include their own commentary.

Project sponsor will provide sufficient context so students can understand how this project brings value to users. We will provide sample Pitchdeks and expected investment memos to be generated.

Project Coordinator: Joey Chua
email TBD

Project Mentor: Xiao Dong
email TBD

Project Supervisor: Dennis Ng
dennisng@smu.edu.sg

• Portfolio Company Profiles: Develop profiles for each portfolio company including industry, product/service offerings, market traction, team, and notable achievements.
• AI-Powered Recommendation Engine: Implement a recommendation engine that analyzes user profiles and preferences to suggest relevant portfolio companies, considering industry expertise, market trends, and potential synergies.
• Dynamic User Profiles: Create user profiles that capture the interests, industry focus, and investment criteria of visitors. Allow users to customize their own profiles and preferences.
• Advanced Search Functionality: Build a robust search feature that enables users to search for portfolio companies based on specific criteria, such as industry, location, funding stage, and technology focus.
• Networking Opportunities: Include networking features that enable visitors to connect directly with portfolio company representatives. This could involve messaging and scheduling meetings.

Project sponsor will provide sufficient context so students can understand how this project brings value to users. We will provide a sample list of portfolio companies along with the companies' description and industries, and the expected user interface design.

Project Coordinator: Joey Chua
email TBD

Project Mentor: Xiao Dong
email TBD

Project Supervisor: Dennis Ng
dennisng@smu.edu.sg

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

• Create new retail/corporate customers. Edit existing customer details.
• Dashboard view of customer accounts and statistics.
• Create customer deposit accounts, e.g., CASA, Term Deposit
• Create customer loan accounts for both retail and corporate customers.
• Execute transactions: deposits/withdrawals, bill payments, loan repayments.
• View transaction history.
• Setup direct debit authorizations.
• Credit approval simulator.
• View reference data, e.g., transaction codes, product parameters.

A previous IS484 team has already migrated the required SMU tBank backend services to OutSystems. All the API documentation will be provided.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: Mahesh Goel
maheshgoel@smu.edu.sg

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

• Dashboard view of customer accounts and statistics.
• Drill down view of deposit and loan accounts.
• Fund transfers: setup beneficiaries, transfer to own/other account, bill payments.
• Setup standing instructions and GIRO (direct debit) arrangements.
• Apply for retail loans.
• Manage existing loans, e.g., partial/full loan repayments.
• Wealth management products: dual currency deposits, stock management, FX forward contracts.
• Book appointments with bank relationship managers.
• Update personal profile, reset PIN.
• Setup notification preferences, balance/transaction trigger alerts.
• Setup affinities (interests), opt into marketing messages.

A previous IS484 team has already migrated the required SMU tBank backend services to OutSystems. All the API documentation will be provided.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: Dennis Ng
dennisng@smu.edu.sg

• Native IOS/android mobile application and web application using the latest technology which inculcates great customer experience design.
• User experience design and wireframes.

The backend may have mock data to begin with. Key success criteria are to have a great visual and customer experience for these apps.

Project Coordinator: Ajith Kumar
ajith-a.kumar@ubs.com

Project Mentor: Ajith Kumar
ajith-a.kumar@ubs.com

Project Supervisor: TBD
email TBD

• A prototype of an NFT exchange with block-explorer functionality.
• Block-explorer is able to verify smart-contract details (such as ownership, time deployed etc.).
• Block-explorer is able to call smart-contract functions.
• UI/UX interface to allow barter trade.

Project sponsors will share sufficient context so students can understand how and where the NFT application can benefit the end users. The sample documents, explanation of the NFT applications and other useful details will be shared.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Neo Wei Cheong
email TBD

Project Supervisor: TBD
email TBD

• Proof of concept for Low Code products.
• Design new APIs and microservices based of selection made by project sponsor.
• Working APIs and microservices for data from current sources.

Project sponsors will share sufficient context so students can understand how current data flow works and what we expect from the APIs. Details about Low code products which can be used by students will be shared.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Neo Wei Cheong
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

The objective of this project is to develop an enhanced mobile application to provide realtime auto refresh and contextual offers to customers.

• Mobile application which supports streaming. When customer does debit card payment or ATM transaction then balance should get auto updated in app. Instead of App call servers at interval to check update use streaming service where server send mobile client updates.
• Build a microservices based offer engine. This engine will monitor customer transactions (debit, credit, new products etc.) and based on rules matrix provide relevant offers and products to customer. e.g., engine detect that customer bought a fight ticket and offer travel insurance to customer. Offers generated in realtime are sent to customers and made available in in app mailbox pre and post login.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Akhil Baheti
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

The aim of the project is to develop an algorithm that takes inputs from a knowledge base data base (Graph DB) to output a quantitative measure of the experience. We will still show a couple of sub ratings which makes the number more explainable, but this is also part of the algorithm.

• Algorithm that calculates (statistically and using AI techniques) a simplified measure of client experience.
• A demonstration of how the calculations work and a good UI presentation of the index with drill down capabilities.

Project sponsors will share sufficient context so students can understand how/where this dashboard brings value to users. We will provide non sensitive data that will help students create their own mock data set and run the algorithm to come up with measures.

Project Coordinator: Saju Phillip
saju.philip@ubs.com

Project Mentor: Kai Xian
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

The scenario is changing fast and today clients are willing to pay higher price for a good experience in any industry. The private bank is focusing on rich clients, and they are more than willing to pay for a premium offering and willing to spend extra for that. Capturing client feedback, SUS, CSAT and other industry standard measures by a traditional survey may impact the overall experience but developing a psychometric or other gamifying methods to capture what matters at the right time is important to improve digital products.

The aim of this project is to research, identify and implement a seamless feedback capture solution for digital services.

• Working code that can be plugged in to applications to record client feedback.
• Prototype application to demonstrate the functionality.
• Architectural blueprint and deployment diagrams.

Project sponsors will share sufficient context so students can understand how they can design a component that can be called from any app to capture the specific feedback.. Project sponsors will guide on technical framework and process to capture and record the feedback in a structured way.

Project Coordinator: Saju Phillip
saju.philip@ubs.com

Project Mentor: Kai Xian
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

The aim of this projects is to build a Rules Engine based on AI (Including GPT) that will:

• Perform unstructured data classification.
• Summarization of similar statements.
• Ranking of key statements / insights.

• Download the reviews in plain text form from sources listed by UBS.
• An opensource AI model (Large language model) or BERT model that can classify the statements based on UBS ontology.
• A summarization engine using latest techniques.
• Ranking algorithm to bring out the key insights in each category which can be fed into a dashboard.

Project sponsors will share sufficient context so students can understand the UBS ontology. Students can use publicly available comments on UBS products like app store and play store reviews in addition to mock data that can be created from other banks reviews or product reviews.

Project Coordinator: Saju Phillip
saju.philip@ubs.com

Project Mentor: Vilva M
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

The aim of this project is to apply Dev Ops concepts to Design, where the artifacts involved are Ideas, Rough sketches, Prototypes hosted, their versions, validation inputs by business, High Fidelity and Low fidelity wireframes, Visual assets, Design system components, Client feedback comments, and pain points identified for continuous improvement to name a few. There will be extensive file management & versioning with File Operations along with Idea/Feature/Feedback lifecycle management to build a Design Ops pipeline.

• A process diagram/ 8design to show the tools, actor and the input/output for main activities in a design function of a corporate.
• Exposing APIs if available with standard tools or integrating the artifacts into a well-defined file management structure.
• Managing requirements and feedback from clients and business about the features/artifacts using automation across its lifecycle.
• A final demonstrate-able solution that will show how an idea will move through the design Ops pipeline in a seamless way for presentation.

We expect to use standard tools like Axure, Figma, Jira, Teams and other tools with Python scripts/automation to build this end-to-end pipeline.

Project Coordinator: Saju Phillip
saju.philip@ubs.com

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

• Understand the current TIBCO BusinessWorks services, which requires installing the TIBCO development studio.
• Replicate (migrate) the functionality of the 100+ TIBCO services onto SMU's licensed OutSystems environment.
• Migrate the existing database over to the OutSystems environment.
• Develop an API Demo App (User Interface) on OutSystems to demonstrate the invocation of all 100+ services on OutSystems.
• Provide API documentation (Swagger).

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

Work product from this project will also be used by Narwhal Financial Systems (NarFin), an SMU spin off company.

• Letter of Credit: full end-to-end maker-checker processes between the issuing bank, and advising bank, including document flows and payment flows.
• Upload of Trade Documents: Bill of Lading, Bill of Exchange, Certificate of Origin, etc..
• Related Trade Finance products: Shipping Guarantee, Trust Receipt, Bill Discounting, Export Factoring, etc..
• Gamification / Leaderboard for classroom usage, to enhance learning of Trade Finance products.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email

• Demonstrate the registration of a Web3.0 id (blockchain id) thru the existing banking credentials via a prototype banking app.
• Demonstrate Web3.0 login and notification for internet direct debit payments.
• Demonstrate capability on use of blockchain host to substitute and support the online internet direct debit payment processing functionality which may include a blockchain smart contract to bridge Web3.0 and legacy payment processing of the banking institutions.

• A prototype bank app to simulate the registration of a Web3.0 id (blockchain id) thru the existing banking credentials and to be the mobile app to enable a Web3.0 login and notification for internet direct debit payments.
• A blockchain host to support the Web3.0 login and payment processing functionality which may include a blockchain smart contract to bridge Web3.0 and legacy payment processing of the banking institutions.
• A banking payment simulator host to register and demonstrate successful payment processing and reference to Web3.0 audit trail.

Project sponsors will share sufficient context so students can understand the context of internet online direct debit to enable the students to design suitable solutions to overcome the problem statement. A sample high level conceptual design, explanation of this roles and responsibilities of the components and other useful details will be available.

Project Coordinator: Lee Kai Joo Germaine
germainelee@nets.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

• Allow users to use their favorite payment apps to pay to all EMVCo QR merchants as opposed to users having to download multiple payment apps in order to pay to merchants accepting different payment apps.
• Allow merchants to accept payment from all payment apps and receive settlement including consolidated reporting from only one acquirer versus settlement with multiple acquirers each representing different payment app providers.
• Allowing a unified and streamlined QR payload which is merchant centric and do not need replacement if the merchant decide to switch acquiring relationships.

• A working eco-system prototype comprising mock\up payment apps, merchants, EMVCo QR labels, EMVCo QR switch (if applicable) and sample transaction and settlement reporting dashboards received by both consumers, merchants and the scheme.
• The prototype should be able to highlight and demonstrate key concepts which are key to enabling such an interoperable QR payment scheme.

Project sponsors will share sufficient context so students can understand EMVCo QR and the QR payment landscape to enable the students to design suitable solutions to overcome the problem statements. A sample high level conceptual design, explanation of this roles and responsibilities of the components and other useful details will be available.

Project Coordinator: Lee Kai Joo Germaine
germainelee@nets.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

Carpark as a service is a new service concept which allows a car park operator to rent physical car park spaces from real-estate property owners and to offer use of these car park spaces to subscribers of this service for a one-time or recurring fee. This allows a car park operator to provide car park services across multiple private car parks across the city without the need to own or rent a complete physical car park. This also allows car users/owners to subscribe to a contemporary digital car park service which allows them flexible membership and subscription options which can apply across all available car parks offered by the service including pre-booking, notification of availability etc.

• A prototype consumer mobile app that provides a real time view of available car park as-as-service functions, subscription and booking options.
• A central car park simulator with allows business model simulation leveraging machine learning/deep learning algorithms to test a variety of simulated statistics of car users/owners, preference and requirements.
• A car-park-as-as-service business viability assessment report using Singapore data.

Project sponsors will share sufficient context so students can understand the context of the car park payment service to enable the students to design suitable solutions to overcome the problem statements. A sample high level conceptual design, explanation of this roles and responsibilities of the components and other useful details will be available. Project sponsors will provide a baseline car park ecosystem simulator which allows the students to further enhance and develop to incorporate the required use cases and data model to support the business model simulation and machine / deep learning.

Project Coordinator: Lee Kai Joo Germaine
germainelee@nets.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

This project seeks to explore the possibility of leveraging machine learning and artificial intelligence to automate the extraction, processing and interpretation of structured and unstructured content from business and financial reports to augment the investment analyst.

• Identify and implement tools to read and extract structured and unstructured content from business and financial reports in different formats e.g., PDF, PPTX, Excel.
• Interface for reports to be uploaded by organization, and to be able to search, interact and visualize data within and across organizations.
• NLP on textual content to include entity extraction, sentiment, topics, summarization.

Project sponsors will share sufficient context so students can understand how/where this UI brings value to users. Project team will provide samples of business and financial reports for processing.

Project Coordinator: Joey Chua
joey.chua@vertexholdings.com

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

• Develop news ingestion pipelines for searching and ingesting content based on keywords of interest.
• Design algorithms or heuristics to identify topics and keywords for news content that are indirectly related to a company of interest.
• Backend ranking methodology to score relevancy of specific articles to the investment manager.
• Build web application and user interface that provides an interactive way for the analyst to review, interact and make sense of the content highlighted to him.

Project sponsors will share sufficient context so students can understand how/where this UI brings value to users.

Project Coordinator: Joey Chua
joey.chua@vertexholdings.com

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

• Acquisition of relevant data sources e.g., customers and vendors to related portfolio companies.
• Collection of datasets and information to understand various industries and markets.
• Web application for user to input company and market fields as well as additional supporting information required.
• Website interface should allow user to generate report on demand e.g., export to PDF.
• Generation of potential leads as well as useful information sources and opportunities for entering the market as well as contacts or events to reach out to.

Project sponsors will share sufficient context so students can understand how/where this UI brings value to users. Provide list of portfolio companies and the industry the companies are in.

Project Coordinator: Joey Chua
joey.chua@vertexholdings.com

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

• Extraction of document fields using OCR technology, to complete the electronic record of the loan application.
• Computing a credit score, using a credit scoring model (e.g., scorecardpy). Note: the credit scoring model should be exposed as a reusable API.
• Implement credit decisioning rules based on the computed credit score, including pricing of the loan (i.e., the offered interest rate based on the customers risk profile).

User Interfaces:

• Customer UI – for; a) applying for the loan online and uploading documents, b) checking loan application status, and c) accepting or rejecting loan offers.
• Bank Staff UI – for; a) manually making credit decisions on borderline loan applications, and b) viewing the status of all loan applications using various filters.
• Admin UI – for; a) configuring the credit scoring model, e.g., setting limits and constraints, and b) training the model using third party datasets, e.g., from lending club.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

• Synchronization of stock quotes form Yahoo Finance.
• State Machine to facilitate the easy management of all transitions between trade states.
• Trade Timer to trigger the expiry of associated trades (e.g., limit orders).
• Trade Matching Engine to match counter party trades conducted based on the order type, price, and pending volume of each trade.
• Trading Algorithm whereby the trader can set parameters and execute automatic trading.

• Account Management: CRUD of Accounts.
• Stock Management: CRUD of Stock, Synchronization with Yahoo Finance.
• Trade Management: CRUD of Trade, State machine, Trade timer.
• Trade Matching Engine: Trade matching algorithm, Logging of all activities.
• Trader Book Management: CRUD to the book, Portfolio analysis.
• Trading Algorithm: Parameters exposed to trader, Execution of auto-trading.
• Gamification / Leaderboard for classroom usage, to reveal the top traders for a lab session.

Project Coordinator: Alan Megargel
alanmegargel@smu.edu.sg

Project Mentor: TBD
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

We plan to build a data mesh to collect and manage data related to client experience.

• Identify the key data elements that can be collected via digital channels that can be managed as a Data Mesh.
• Create the domains and architecture to manage this mesh.
• Define and build Data products that can be consumed for measurements and calculating scores.
• Create a dashboard of client experience scores such as: Customer Effort Score, Net Promoter Score, Customer Satisfaction Score, Task Success Rate, Error Occurrence Rate, System Usability Scale, Time-on-task.

Project sponsors will share sufficient context so students can understand how/where this brings value to further enhance client experience and design.

Project Coordinator: Saju Philip
saju.philip@ubs.com

Project Mentor: Sweata D , Kai Xian
email TBD

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

• A native iOS/Android mobile application and web application using the latest technology which inculcates great customer experience design. There are already great research materials on this subject, so need a both balanced academic view and already existing app view to come out with a great application to do portfolio viewing of a Banking clients assets. The backend may have mock data to begin with so its not really expected for the app to work end to end. The key success criteria are to have a great visual and customer experience for these apps.

Project Coordinator: Saju Philip
saju.philip@ubs.com

Project Mentor: Ajith Kumar
ajith-a.kumar@ubs.com

Project Supervisor: Seema CHOKSHI
seemac.2020@phdgm.smu.edu.sg

• A prototype of an NFT exchange with block-explorer functionality.
• Block-explorer is able to verify smart-contract details (such as ownership, time deployed etc.).
• Block-explorer is able to call smart-contract functions.
• UI/UX interface to allow barter trade.

Project sponsors will share sufficient context so students can understand how and where the NFT application can benefit the end users. The sample documents, explanation of the NFT applications and other useful details will be shared.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Neo Wei Cheong
email TBD

Project Supervisor: TBD
email TBD

• Proof of concept for Low Code products.
• Design new APIs and microservices based of selection made by project sponsor.
• Working APIs and microservices for data from current sources.

Project sponsors will share sufficient context so students can understand how current data flow works and what we expect from the APIs. Details about Low code products which can be used by students will be shared.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Neo Wei Cheong
email TBD

Project Supervisor: TBD
email TBD

The objective of this project is to develop an enhanced mobile application to provide realtime auto refresh and contextual offers to customers.

• Mobile application which supports streaming. When customer does debit card payment or ATM transaction then balance should get auto updated in app. Instead of App call servers at interval to check update use streaming service where server send mobile client updates.
• Build a microservices based offer engine. This engine will monitor customer transactions (debit, credit, new products etc.) and based on rules matrix provide relevant offers and products to customer. e.g., engine detect that customer bought a fight ticket and offer travel insurance to customer. Offers generated in realtime are sent to customers and made available in in app mailbox pre and post login.

Project Coordinator: Dedy Lim
limdd@ocbc.com

Project Mentor: Akhil Baheti
email TBD

Project Supervisor: TBD
email TBD

• To analyze the account maintenance form in PDF
• Develop UI & microservices to render the form based on configuration & capture the data digitally
• Allow customer to authorize the submission digitally with online signature or via SingPass

• UI & microservices as a dynamic online account maintenance application.
• UI is preferred to be developed in ReactJS & microservices developed in Java Springboot

Project sponsors will share sufficient context so students can understand how/where this UI brings value to the customers. The sample pdf form, explanation of the validations and other useful details will be shared.

Project Coordinator: Lim Dedy Daryono
limdd@ocbc.com

Project Mentor: Kotla Mutha Ravi Tej
RaviTejKotla@ocbc.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• To analyze the H2H setup & challenges
• Propose a new design, implementation & tool if any to ease the maintenance with better access control

• New H2H solutions setup for minimal operation maintenance
• Event trigger capabilities (instead of scheduled)
• H2H is preferred to be on Linux platform with Java components if any

Project sponsors will share sufficient context so students can understand how/where the new H2H integration will benefit the customers.

Project Coordinator: Lim Dedy Daryono
limdd@ocbc.com

Project Mentor: Kochupurackal Joseph George
JosephK@ocbc.com

Project Supervisor: Project not assigned

• Document notarization & verification
• Production of NFT assets

• New microservices for API calls to the endpoints of blockchain for document verification.
• New microservices for API calls to the endpoints of blockchain for production and management of NFT assets.
• New smart contract to store the Hash of the documents on-chain and other meta-data stored off-chain.
• New smart contract for NFT assets based on ERC-721 token standard stored on-chain and other NFT meta-data stored off-chain.

Project sponsors will share sufficient context so students can understand how and where the blockchain applications can benefit the end users. The sample documents, explanation of the validations and other useful details will be shared.

Project Coordinator: Lim Dedy Daryono
limdd@ocbc.com

Project Mentor: Neo Wei Cheong
WeiCheongNeo1@ocbc.com

Project Supervisor: LAU Yi Meng
ymlau@smu.edu.sg

• Have the ability to create, delete and modify rules engine configurations
• Apply validation logic across the configuration to highlight inconsistencies in the rules such as loops, duplicates or conflicts.
• The application should provide an intuitive UI/UX, and the ability to create new pricing products without code changes.

Project sponsors will share sufficient context so students can understand how/where this application brings value to users. The data will be shared and an explanation of this data structure and other useful details will be available.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Ronnie Day
ronnie.day@citi.com

Project Supervisor: LAU Yi Meng
ymlau@smu.edu.sg

• Working dashboard with realtime view of platform health status.
• View of contextual assessment of platform status.
• View of trigger notifications when risk crosses threshold.
• View of collected historical information.
• Perform system end-to-end calculated risk assessment.
• Ability to collect data from different applications in realtime.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Ricky Ho
ricky.ho@citi.com

Project Supervisor: LAU Yi Meng
ymlau@smu.edu.sg

• Running 24/7 to tend to all queries
• Generating cohesive and accurate responses to queries in real time
• Processing financial jargon and acronyms as input
• Running database queries and displaying results
• Making trading algorithm predictions for products selected by trader
• Logging all activity to be used for analysis of performance

• Functional chatbot with clean UI and robust backend
• Chatbot must use NLP tasks such as Word sense Disambiguation, Named Entity Recognition (NEM) and Sentiment Analysis to ensure nuanced interactions
• Must mine text from existing datasets to enrich the bot
• Must employ decision making models to make trading algorithm predictions

Project Inputs:

• Historic queries and responses
• Financial acronyms compilation
• Product to algorithm mapping
• Any FAQs

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Rajeshkumar Madanlal
email rs97865@citi.com

Project Supervisor: LAU Yi Meng
ymlau@smu.edu.sg

• Flexibility and enable users to retrieve data on-demand
• Centralized data aggregation management
• Cost-effective and timely response to ever-changing data requirements

• Ability to upload data a dictionary in a defined format – this format can be specified by the students,
• Ability to create data extraction templates from the available data points in the data dictionary.
• Once templates are created, they can be run on-demand to extract and store these data points from source systems.

Note: The data sources typically are Oracle, MSSQL and No-SQL databases. This can be further extended to File store, HDFS etc.

Project sponsor will share further context on the various pain points and priorities of the problem statement. Specific use will be defined and shared with the students too.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Sandeep Sharma
rajeshkumar.madanlal.sharma@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Build learning pathways for their teams on the various digital processes and systems that they would have to get familiar with as part of their on-the-job training.
• Upload / maintain use-case driven content for the learning pathways.
• Reduce manual on-the-job trainings for new hires.

• A working prototype to collate and prioritizes training resource(s) that enables efficient and effective on-the-job learning. The solution should be easy and intuitive to use for both managers and new hires.
• The working prototype would demonstrate the use of natural language processing/AI and full stack development skills to build a platform that can deliver summarized and relevant information when users make specific on-the-job queries.
• The solution must be able to measure the success of on-the-job learning.
• New hires should easily be able to navigate the learning pathways such that they can self-serve and learn on their own and Search for answers to specific on-the-job queries they have on processes / systems.

Project sponsor will share further context on the various pain points and priorities around onboarding and training new hires. Specific use case and target audience personas will be defined and shared with the students too.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Go Cheng Yan
cg14129@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

https://en.wikipedia.org/wiki/Low-code_development_platform The objective is to develop Data APIs using Low code technology automation. This is an agile way of software development. It will deliver easy access of our data (reference / product / transactional) to our Web, Mobile UI and reposting modules.

• POC for Low Code products.
• Design new APIs based of selection made by project sponsor.
• Working APIs for data from current sources.

Project learnings:

• Experience in designing / developing APIs.
• Learning an agile way of application development.
• Proof of connects with product(s) used of Low Code automation.
• Experience working on data complexity in a distributed system.
• Good idea about Capital Markets domain.

Project sponsors will share sufficient context so students can understand how current data flow works and what we expect from the APIs, and details about Low code products which can be used by Citi.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Rohit Rohatgi
email rohit.rohatgi@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Demonstrate the registration of a Web3.0 id (blockchain id) thru the existing banking credentials via a prototype banking app.
• Demonstrate Web3.0 login and notification for internet direct debit payments.
• Demonstrate capability on use of blockchain host to substitute and support the online internet direct debit payment processing functionality which may include a blockchain smart contract to bridge Web3.0 and legacy payment processing of the banking institutions.

• A prototype bank app to simulate the registration of a Web3.0 id (blockchain id) thru the existing banking credentials and to be the mobile app to enable a Web3.0 login and notification for internet direct debit payments.
• A blockchain host to support the Web3.0 login and payment processing functionality which may include a blockchain smart contract to bridge Web3.0 and legacy payment processing of the banking institutions.
• A banking payment simulator host to register and demonstrate successful payment processing and reference to Web3.0 audit trail.

Project sponsors will share sufficient context so students can understand the context of internet online direct debit to enable the students to design suitable solutions to overcome the problem statement. A sample high level conceptual design, explanation of this roles and responsibilities of the components and other useful details will be available.

Project Coordinator: Lee Kai Joo Germaine
germainelee@nets.com.sg

Project Mentor: TBD
email TBD

Project Supervisor: TBD
email TBD

Bankers and Investment counselors (ICs) act on market trends and guidance from research teams to create customized financial products for clients. These products are created to cater to a variety financial risks and client preferences.

• Allows users to view cumulative financial performance of the products.
• Surface product performance details, including possible risks from changes in the market conditions etc.
• Filter and show a summary of upcoming product milestone details – such as interest payments, premiums due etc. Allow this data to be sorted and filtered to show details for one or more clients.
• Visualize this data using charts, tables etc. in a simple, uncluttered fashion.

Project Coordinator: Kulkarni, Kaushik
kaushik.achala.kulkarni@citi.com

Project Mentor: Awan, Kashif
email TBD

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

AI machine learning Platform to provide risk assessment of cross application health status and prediction of downtime. To do this, they need real time access of:

• Application through-put performance.
• End-to-end application cross-platform health assessment.
• Daily average volume vs. real time system load.

• Contains a dashboard that provides a real time view of platform health status.
• Leverages machine learning / deep learning algorithms which suggests and predicts potential system downtime, potential SLA breaches, and identifies trigger points / bottle necks.
• Is able to construct end-to-end flows across different platforms.

Project Coordinator: Ho, Ricky
ricky.ho@citi.com

Project Mentor: Balusa, Ashok
email TBD

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

Document processing using Cognitive OCR - Currently the Document Scrutiny process is a manual task which requires human intervention for regulatory validations. This process is error prone and time consuming. A Rules Engine is need with these features:

• Perform Data Validations & Scrutiny for the received Transactions & Documents.
• Rules can be configured through UI & saved to the application at any point of time.
• A rich UI experience is needed for user friendly & easy rules configuration.

• Download the Documents from Regulators portal for 5-6 countries for Consumer & Corporate banking platform.
• Decipher the Rules & Configure the Rules inside the Rule Engine.
• Receive the Transactions & the relevant supporting documents. Optical Character Recognition (OCR) & Named Entity Recognition (NER) will be performed by the system.
• Perform the Rule validations in an automated way for Transactions & Documents data extracted via the OCR Engine (Currently done manually).

Project Coordinator: Gupta, Arvind
shweta4.gupta@citi.com

Project Mentor: Mohammad, Thanveer
email TBD

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Citi's institutional clients place millions of orders on any given trading day through its electronic execution platforms.
• As orders come in through Citi's systems, they are evaluated against several risk parameters (such as credit limits - Max Daily Notional, Daily Notional, Short Notional, etc) before the order is sent to the market.
• This project requires students to build capabilities to the system to predict and alert the clients of potential breach events both in isolation and combination of individual risk parameters.

Tasks include:

• Building adapters to funnel data to a central data pool to run analytics on the data.
• Analyzing and find inflection data points and patterns.
• Building a user interface/ data conduit that can be used by Citi clients/ users to be notified of any breaches if found.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Kumar, Sudeep
email TBD

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Students to analyze the limitations and advantages of using Blockchain Ethereum 2.0 platform for financial data reconciliation.
• Develop UI to demonstrate the contents of 2 trade feeds at each block mutation.
• Give the final output at EOD in a file format with trade reconciliation exceptions.

Project Coordinator: Dossii, Shailej P
shailej.p.dossii@citi.com

Project Mentor: Kumar, Sudeep
email TBD

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Detect the root cause of low accuracy with a given model input, model output and model binary.
• Generate corrective recommendations to increase accuracy without re-building the model.
• Perform regression testing with recommendations, to demonstrate the expected accuracy.
• The program is expected to be able to analyse any supervisory learning model for the given input and output.

Yuqian Song, Head of APAC/EMEA Data Services and Head of Global Advanced Analytics Technology Solutions
yuqian.song@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Customer Classification (via chat)
• Portfolio Selection (recommendation to customer)
• Visualization (portfolio analysis)
• Personal Finance Dashboard (extension on top of the above)

Ravinder Rao, Senior Vice President, GCT Data & Analytics
ravinder.rao@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

Kashif Awan, Private Bank Capital Markets APAC Technology Head kashif.awan@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

Tasks:

• Understand Citi's current data model for storing historical data.
  
• Build adapters to funnel data to a central data pool to run analytics on the data.
  
• Analyze and find inflection data points and patterns.
  
• Build supplemental data feed to establish market sentiments in the sytem and use that to augment their prediction models.
  
• Build a user interface/ data conduit that can be used by Citi clients/ users to be notified of any breaches if found.

Sudeep Kumar, Global Exchange Connectivity & Asia Cash Equities Technology Lead
sudeep1.kumar@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Collect information about countries from IMF data.
  
• Collect information about cities from DBPedia data.
  
• Build schedules to keep the above data fresh, as new data is available.
  
• Make this data available to lookup by country and Citi names to be used by models and analytics queries.
  
• Generate an embedding of countries and an embedding of cities, to be used as features in models.
  
• Unstructured addresses (where country, city are not marked separately, but part of large address text) need to be parsed before lookup.
  
• Make this information available by joining the addresses of people and businesses and collected data by countries and cities as join keys.
  
• Measure how much the model performance improves, after using this additional information.

Yuqian Song, Head of APAC/EMEA Data Services and Head of Global Advanced Analytics Technology Solutions
yuqian.song@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg

• Acquire 3rd party e.g. Statista, Euromonitor and map the brand mentions in the transactions, with brand master list in acquired data.
  
• Use brand category-hierarchy to segment the customers for their buying habits, using customer transaction history.
  
• Use brand category-hierarchy to segment merchants by categories of products and services sold and offers made.
  
• Use the category based segments for a broader match between customers and merchants.

Yuqian Song, Head of APAC/EMEA Data Services and Head of Global Advanced Analytics Technology Solutions
yuqian.song@citi.com

Project Supervisor: Dennis NG
dennisng@smu.edu.sg