August 28 to 30 2018, Santa Clara, CA.

Speaker "Raghav Ramesh" Details

Name :
raghav ramesh
Company :
Title :
Machine Learning Engineer
Topic :

How machine learning powers on-demand logistics at DoorDash

Abstract :

Recent years have seen a surge in marketplace companies, where the common algorithmic challenge is efficient matching between two sides of the marketplace. For DoorDash, which focuses on food delivery, this problem is even more difficult because of the three-sided marketplace, where we need to identify the optimal Dasher to fulfill a delivery from a restaurant and bring it to a Consumer. At its core, these are more complex versions of vehicle routing problem(VRP). VRP, in its simplest form is NP hard and the real-time, quick turnaround nature of DoorDash introduces additional challenges: delivery requests come in continuously, Dashers constantly are in movement, and the effects of variance in restaurant operations and real world events (traffic, weather, etc.) have pronounced effects on the solutions. Thus, finding global optimality in real-time becomes furthermore intractable. We leverage various machine learning techniques to intelligently model the decision space and achieve near optimal solutions in seconds. Ultimately, across DoorDash’s tens of millions of deliveries, these techniques have led to shorter delivery times for consumers, higher pay for Dashers, increased income for merchant partners, and a better experience for all sides of the marketplace. This talk highlights ML techniques used by DoorDash to enhance efficiency and quality in its marketplace, and provides a framework for how ML can augment core Operations Research problems like the Vehicle Routing problem. We will share an overview of these techniques and dive deep into: 1. Predicting time points in the life of a delivery: Executing a delivery involves decision making on various time points. When will the order arrive to the consumer? When will the food be ready? When will the Dasher arrive at the restaurant? In this section, we will explain how the different predictions are made and more importantly, how they fit in with the larger logistics engine. 2. ML techniques for balancing supply and demand in the marketplace: An operations research problem is constrained by the inputs to it, in our case the Dasher and Merchant supply, and Customer demand. Efficiently balancing supply and demand leads to more optimal solutions in the VRP. In this section, we outline the prediction models we use to achieve efficient balance between supply and demand.

Profile :
Raghav Ramesh is a machine learning engineer at DoorDash working on its core logistics engine, where he focuses on core AI problems: vehicle routing, Dasher assignments, delivery time predictions, demand forecasting, and pricing. Previously, Raghav worked on various data products at Twitter, including recommendation systems, trends ranking, and growth analytics. He holds an MS from Stanford University, where he focused on artificial intelligence and operations research.

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