Anticipate & Collab: Data-driven Task Anticipation and Knowledge-driven Planning for Human-robot Collaboration

no code implementations • 4 Apr 2024 • Shivam Singh, Karthik Swaminathan, Raghav Arora, Ramandeep Singh, Ahana Datta, Dipanjan Das, Snehasis Banerjee, Mohan Sridharan, Madhava Krishna

Specifically, DaTAPlan planner computes actions for an agent and a human to collaboratively and jointly achieve the tasks anticipated by the LLM, and the agent automatically adapts to unexpected changes in human action outcomes and preferences.

Sequence-Agnostic Multi-Object Navigation

no code implementations • 10 May 2023 • Nandiraju Gireesh, Ayush Agrawal, Ahana Datta, Snehasis Banerjee, Mohan Sridharan, Brojeshwar Bhowmick, Madhava Krishna

The Multi-Object Navigation (MultiON) task requires a robot to localize an instance (each) of multiple object classes.

Object

Object Goal Navigation Based on Semantics and RGB Ego View

no code implementations • 20 Oct 2022 • Snehasis Banerjee, Brojeshwar Bhowmick, Ruddra dev Roychoudhury

This paper presents an architecture and methodology to empower a service robot to navigate an indoor environment with semantic decision making, given RGB ego view.

Decision Making Navigate

Spatial Relation Graph and Graph Convolutional Network for Object Goal Navigation

no code implementations • 27 Aug 2022 • D. A. Sasi Kiran, Kritika Anand, Chaitanya Kharyal, Gulshan Kumar, Nandiraju Gireesh, Snehasis Banerjee, Ruddra dev Roychoudhury, Mohan Sridharan, Brojeshwar Bhowmick, Madhava Krishna

This paper describes a framework for the object-goal navigation task, which requires a robot to find and move to the closest instance of a target object class from a random starting position.

Bayesian Inference Object +2

Object Goal Navigation using Data Regularized Q-Learning

no code implementations • 27 Aug 2022 • Nandiraju Gireesh, D. A. Sasi Kiran, Snehasis Banerjee, Mohan Sridharan, Brojeshwar Bhowmick, Madhava Krishna

Our framework incrementally builds a semantic map of the environment over time, and then repeatedly selects a long-term goal ('where to go') based on the semantic map to locate the target object instance.

Data Augmentation Navigate +2

Talk-to-Resolve: Combining scene understanding and spatial dialogue to resolve granular task ambiguity for a collocated robot

no code implementations • 22 Nov 2021 • Pradip Pramanick, Chayan Sarkar, Snehasis Banerjee, Brojeshwar Bhowmick

The utility of collocating robots largely depends on the easy and intuitive interaction mechanism with the human.

Scene Understanding

Interpretable Feature Recommendation for Signal Analytics

no code implementations • 6 Nov 2017 • Snehasis Banerjee, Tanushyam Chattopadhyay, Ayan Mukherjee

The proposed approach is based on Wide Learning architecture and provides means for interpretation of the recommended features.

Automation of Feature Engineering for IoT Analytics

no code implementations • 13 Jul 2017 • Snehasis Banerjee, Tanushyam Chattopadhyay, Arpan Pal, Utpal Garain

Several pattern recognition principles and state of art (SoA) ML techniques are followed to design the overall approach for the proposed automation.

Decision Making Feature Engineering +1

Towards Wide Learning: Experiments in Healthcare

1 code implementation • 17 Dec 2016 • Snehasis Banerjee, Tanushyam Chattopadhyay, Swagata Biswas, Rohan Banerjee, Anirban Dutta Choudhury, Arpan Pal, Utpal Garain

In this paper, a Wide Learning architecture is proposed that attempts to automate the feature engineering portion of the machine learning (ML) pipeline.

Emotion Classification Feature Engineering +1