Your search keyword '"Tambe A"' showing total 14,134 results

1. Contrasting local and global modeling with machine learning and satellite data: A case study estimating tree canopy height in African savannas

Author

Rolf, Esther, Gordon, Lucia, Tambe, Milind, and Davies, Andrew

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition

Abstract

While advances in machine learning with satellite imagery (SatML) are facilitating environmental monitoring at a global scale, developing SatML models that are accurate and useful for local regions remains critical to understanding and acting on an ever-changing planet. As increasing attention and resources are being devoted to training SatML models with global data, it is important to understand when improvements in global models will make it easier to train or fine-tune models that are accurate in specific regions. To explore this question, we contrast local and global training paradigms for SatML through a case study of tree canopy height (TCH) mapping in the Karingani Game Reserve, Mozambique. We find that recent advances in global TCH mapping do not necessarily translate to better local modeling abilities in our study region. Specifically, small models trained only with locally-collected data outperform published global TCH maps, and even outperform globally pretrained models that we fine-tune using local data. Analyzing these results further, we identify specific points of conflict and synergy between local and global modeling paradigms that can inform future research toward aligning local and global performance objectives in geospatial machine learning., Comment: 31 pages; 9 figures

Published

2024

2. Bayesian Collaborative Bandits with Thompson Sampling for Improved Outreach in Maternal Health Program

Author

Dasgupta, Arpan, Jain, Gagan, Suggala, Arun, Shanmugam, Karthikeyan, Tambe, Milind, and Taneja, Aparna

Subjects

Computer Science - Machine Learning

Abstract

Mobile health (mHealth) programs face a critical challenge in optimizing the timing of automated health information calls to beneficiaries. This challenge has been formulated as a collaborative multi-armed bandit problem, requiring online learning of a low-rank reward matrix. Existing solutions often rely on heuristic combinations of offline matrix completion and exploration strategies. In this work, we propose a principled Bayesian approach using Thompson Sampling for this collaborative bandit problem. Our method leverages prior information through efficient Gibbs sampling for posterior inference over the low-rank matrix factors, enabling faster convergence. We demonstrate significant improvements over state-of-the-art baselines on a real-world dataset from the world's largest maternal mHealth program. Our approach achieves a $16\%$ reduction in the number of calls compared to existing methods and a $47$\% reduction compared to the deployed random policy. This efficiency gain translates to a potential increase in program capacity by $0.5-1.4$ million beneficiaries, granting them access to vital ante-natal and post-natal care information. Furthermore, we observe a $7\%$ and $29\%$ improvement in beneficiary retention (an extremely hard metric to impact) compared to state-of-the-art and deployed baselines, respectively. Synthetic simulations further demonstrate the superiority of our approach, particularly in low-data regimes and in effectively utilizing prior information. We also provide a theoretical analysis of our algorithm in a special setting using Eluder dimension.

Published

2024

3. On Diffusion Models for Multi-Agent Partial Observability: Shared Attractors, Error Bounds, and Composite Flow

Author

Wang, Tonghan, Dong, Heng, Jiang, Yanchen, Parkes, David C., and Tambe, Milind

Subjects

Computer Science - Machine Learning

Abstract

Multiagent systems grapple with partial observability (PO), and the decentralized POMDP (Dec-POMDP) model highlights the fundamental nature of this challenge. Whereas recent approaches to addressing PO have appealed to deep learning models, providing a rigorous understanding of how these models and their approximation errors affect agents' handling of PO and their interactions remain a challenge. In addressing this challenge, we investigate reconstructing global states from local action-observation histories in Dec-POMDPs using diffusion models. We first find that diffusion models conditioned on local history represent possible states as stable fixed points. In collectively observable (CO) Dec-POMDPs, individual diffusion models conditioned on agents' local histories share a unique fixed point corresponding to the global state, while in non-CO settings, the shared fixed points yield a distribution of possible states given joint history. We further find that, with deep learning approximation errors, fixed points can deviate from true states and the deviation is negatively correlated to the Jacobian rank. Inspired by this low-rank property, we bound the deviation by constructing a surrogate linear regression model that approximates the local behavior of diffusion models. With this bound, we propose a composite diffusion process iterating over agents with theoretical convergence guarantees to the true state.

Published

2024

4. Optimizing Vital Sign Monitoring in Resource-Constrained Maternal Care: An RL-Based Restless Bandit Approach

Author

Boehmer, Niclas, Zhao, Yunfan, Xiong, Guojun, Rodriguez-Diaz, Paula, Cibrian, Paola Del Cueto, Ngonzi, Joseph, Boatin, Adeline, and Tambe, Milind

Subjects

Computer Science - Artificial Intelligence

Abstract

Maternal mortality remains a significant global public health challenge. One promising approach to reducing maternal deaths occurring during facility-based childbirth is through early warning systems, which require the consistent monitoring of mothers' vital signs after giving birth. Wireless vital sign monitoring devices offer a labor-efficient solution for continuous monitoring, but their scarcity raises the critical question of how to allocate them most effectively. We devise an allocation algorithm for this problem by modeling it as a variant of the popular Restless Multi-Armed Bandit (RMAB) paradigm. In doing so, we identify and address novel, previously unstudied constraints unique to this domain, which render previous approaches for RMABs unsuitable and significantly increase the complexity of the learning and planning problem. To overcome these challenges, we adopt the popular Proximal Policy Optimization (PPO) algorithm from reinforcement learning to learn an allocation policy by training a policy and value function network. We demonstrate in simulations that our approach outperforms the best heuristic baseline by up to a factor of $4$.

Published

2024

5. Find Rhinos without Finding Rhinos: Active Learning with Multimodal Imagery of South African Rhino Habitats

Author

Gordon, Lucia, Behari, Nikhil, Collier, Samuel, Bondi-Kelly, Elizabeth, Killian, Jackson A., Ressijac, Catherine, Boucher, Peter, Davies, Andrew, and Tambe, Milind

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Much of Earth's charismatic megafauna is endangered by human activities, particularly the rhino, which is at risk of extinction due to the poaching crisis in Africa. Monitoring rhinos' movement is crucial to their protection but has unfortunately proven difficult because rhinos are elusive. Therefore, instead of tracking rhinos, we propose the novel approach of mapping communal defecation sites, called middens, which give information about rhinos' spatial behavior valuable to anti-poaching, management, and reintroduction efforts. This paper provides the first-ever mapping of rhino midden locations by building classifiers to detect them using remotely sensed thermal, RGB, and LiDAR imagery in passive and active learning settings. As existing active learning methods perform poorly due to the extreme class imbalance in our dataset, we design MultimodAL, an active learning system employing a ranking technique and multimodality to achieve competitive performance with passive learning models with 94% fewer labels. Our methods could therefore save over 76 hours in labeling time when used on a similarly-sized dataset. Unexpectedly, our midden map reveals that rhino middens are not randomly distributed throughout the landscape; rather, they are clustered. Consequently, rangers should be targeted at areas with high midden densities to strengthen anti-poaching efforts, in line with UN Target 15.7., Comment: 9 pages, 9 figures, IJCAI 2023 Special Track on AI for Good

Published

2024

6. Effect of Magnetic Fields on Urca Rates in Neutron Star Mergers

Author

Tambe, Pranjal, Chatterjee, Debarati, Alford, Mark, and Haber, Alexander

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

Isospin-equilibrating weak processes, called ``Urca" processes, are of fundamental importance in astrophysical environments like (proto-)neutron stars, neutron star mergers, and supernovae. In these environments, matter can reach high temperatures of tens of MeVs and be subject to large magnetic fields. We thus investigate Urca rates at different temperatures and field strengths by performing the full temperature and magnetic-field dependent rate integrals for different equations of state. We find that the magnetic fields play an important role at temperatures of a few MeV, especially close to or below the direct Urca threshold, which is softened by the magnetic field. At higher temperatures, the effect of the magnetic fields can be overshadowed by the thermal effects. We observe that the magnetic field more strongly influences the neutron decay rates than the electron capture rates, leading to a shift in chemical equilibrium.

Published

2024

7. What is the Right Notion of Distance between Predict-then-Optimize Tasks?

Author

Rodriguez-Diaz, Paula, Kong, Lingkai, Wang, Kai, Alvarez-Melis, David, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Comparing datasets is a fundamental task in machine learning, essential for various learning paradigms; from evaluating train and test datasets for model generalization to using dataset similarity for detecting data drift. While traditional notions of dataset distances offer principled measures of similarity, their utility has largely been assessed through prediction error minimization. However, in Predict-then-Optimize (PtO) frameworks, where predictions serve as inputs for downstream optimization tasks, model performance is measured through decision regret minimization rather than prediction error minimization. In this work, we (i) show that traditional dataset distances, which rely solely on feature and label dimensions, lack informativeness in the PtO context, and (ii) propose a new dataset distance that incorporates the impacts of downstream decisions. Our results show that this decision-aware dataset distance effectively captures adaptation success in PtO contexts, providing a PtO adaptation bound in terms of dataset distance. Empirically, we show that our proposed distance measure accurately predicts transferability across three different PtO tasks from the literature.

Published

2024

8. Improving the Prediction of Individual Engagement in Recommendations Using Cognitive Models

Author

Seow, Roderick, Zhao, Yunfan, Wood, Duncan, Tambe, Milind, and Gonzalez, Cleotilde

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

For public health programs with limited resources, the ability to predict how behaviors change over time and in response to interventions is crucial for deciding when and to whom interventions should be allocated. Using data from a real-world maternal health program, we demonstrate how a cognitive model based on Instance-Based Learning (IBL) Theory can augment existing purely computational approaches. Our findings show that, compared to general time-series forecasters (e.g., LSTMs), IBL models, which reflect human decision-making processes, better predict the dynamics of individuals' states. Additionally, IBL provides estimates of the volatility in individuals' states and their sensitivity to interventions, which can improve the efficiency of training of other time series models.

Published

2024

9. Balancing Act: Prioritization Strategies for LLM-Designed Restless Bandit Rewards

Author

Verma, Shresth, Boehmer, Niclas, Kong, Lingkai, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems

Abstract

LLMs are increasingly used to design reward functions based on human preferences in Reinforcement Learning (RL). We focus on LLM-designed rewards for Restless Multi-Armed Bandits, a framework for allocating limited resources among agents. In applications such as public health, this approach empowers grassroots health workers to tailor automated allocation decisions to community needs. In the presence of multiple agents, altering the reward function based on human preferences can impact subpopulations very differently, leading to complex tradeoffs and a multi-objective resource allocation problem. We are the first to present a principled method termed Social Choice Language Model for dealing with these tradeoffs for LLM-designed rewards for multiagent planners in general and restless bandits in particular. The novel part of our model is a transparent and configurable selection component, called an adjudicator, external to the LLM that controls complex tradeoffs via a user-selected social welfare function. Our experiments demonstrate that our model reliably selects more effective, aligned, and balanced reward functions compared to purely LLM-based approaches.

Published

2024

10. The Bandit Whisperer: Communication Learning for Restless Bandits

Author

Zhao, Yunfan, Wang, Tonghan, Nagaraj, Dheeraj, Taneja, Aparna, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

Applying Reinforcement Learning (RL) to Restless Multi-Arm Bandits (RMABs) offers a promising avenue for addressing allocation problems with resource constraints and temporal dynamics. However, classic RMAB models largely overlook the challenges of (systematic) data errors - a common occurrence in real-world scenarios due to factors like varying data collection protocols and intentional noise for differential privacy. We demonstrate that conventional RL algorithms used to train RMABs can struggle to perform well in such settings. To solve this problem, we propose the first communication learning approach in RMABs, where we study which arms, when involved in communication, are most effective in mitigating the influence of such systematic data errors. In our setup, the arms receive Q-function parameters from similar arms as messages to guide behavioral policies, steering Q-function updates. We learn communication strategies by considering the joint utility of messages across all pairs of arms and using a Q-network architecture that decomposes the joint utility. Both theoretical and empirical evidence validate the effectiveness of our method in significantly improving RMAB performance across diverse problems.

Published

2024

11. Combining Diverse Information for Coordinated Action: Stochastic Bandit Algorithms for Heterogeneous Agents

Author

Gordon, Lucia, Rolf, Esther, and Tambe, Milind

Subjects

Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Stochastic multi-agent multi-armed bandits typically assume that the rewards from each arm follow a fixed distribution, regardless of which agent pulls the arm. However, in many real-world settings, rewards can depend on the sensitivity of each agent to their environment. In medical screening, disease detection rates can vary by test type; in preference matching, rewards can depend on user preferences; and in environmental sensing, observation quality can vary across sensors. Since past work does not specify how to allocate agents of heterogeneous but known sensitivity of these types in a stochastic bandit setting, we introduce a UCB-style algorithm, Min-Width, which aggregates information from diverse agents. In doing so, we address the joint challenges of (i) aggregating the rewards, which follow different distributions for each agent-arm pair, and (ii) coordinating the assignments of agents to arms. Min-Width facilitates efficient collaboration among heterogeneous agents, exploiting the known structure in the agents' reward functions to weight their rewards accordingly. We analyze the regret of Min-Width and conduct pseudo-synthetic and fully synthetic experiments to study the performance of different levels of information sharing. Our results confirm that the gains to modeling agent heterogeneity tend to be greater when the sensitivities are more varied across agents, while combining more information does not always improve performance., Comment: 19 pages, 6 figures, to be published in ECAI 2024

Published

2024

12. Escape Sensing Games: Detection-vs-Evasion in Security Applications

Author

Boehmer, Niclas, Han, Minbiao, Xu, Haifeng, and Tambe, Milind

Subjects

Computer Science - Computer Science and Game Theory

Abstract

Traditional game-theoretic research for security applications primarily focuses on the allocation of external protection resources to defend targets. This work puts forward the study of a new class of games centered around strategically arranging targets to protect them against a constrained adversary, with motivations from varied domains such as peacekeeping resource transit and cybersecurity. Specifically, we introduce Escape Sensing Games (ESGs). In ESGs, a blue player manages the order in which targets pass through a channel, while her opponent tries to capture the targets using a set of sensors that need some time to recharge after each activation. We present a thorough computational study of ESGs. Among others, we show that it is NP-hard to compute best responses and equilibria. Nevertheless, we propose a variety of effective (heuristic) algorithms whose quality we demonstrate in extensive computational experiments.

Published

2024

13. Transcendence: Generative Models Can Outperform The Experts That Train Them

Author

Zhang, Edwin, Zhu, Vincent, Saphra, Naomi, Kleiman, Anat, Edelman, Benjamin L., Tambe, Milind, Kakade, Sham M., and Malach, Eran

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Generative models are trained with the simple objective of imitating the conditional probability distribution induced by the data they are trained on. Therefore, when trained on data generated by humans, we may not expect the artificial model to outperform the humans on their original objectives. In this work, we study the phenomenon of transcendence: when a generative model achieves capabilities that surpass the abilities of the experts generating its data. We demonstrate transcendence by training an autoregressive transformer to play chess from game transcripts, and show that the trained model can sometimes achieve better performance than all players in the dataset. We theoretically prove that transcendence can be enabled by low-temperature sampling, and rigorously assess this claim experimentally. Finally, we discuss other sources of transcendence, laying the groundwork for future investigation of this phenomenon in a broader setting., Comment: Code, models, and data at https://transcendence.eddie.win

Published

2024

14. Preliminary Study of the Impact of AI-Based Interventions on Health and Behavioral Outcomes in Maternal Health Programs

Author

Dasgupta, Arpan, Boehmer, Niclas, Madhiwalla, Neha, Hedge, Aparna, Wilder, Bryan, Tambe, Milind, and Taneja, Aparna

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Computers and Society

Abstract

Automated voice calls are an effective method of delivering maternal and child health information to mothers in underserved communities. One method to fight dwindling listenership is through an intervention in which health workers make live service calls. Previous work has shown that we can use AI to identify beneficiaries whose listenership gets the greatest boost from an intervention. It has also been demonstrated that listening to the automated voice calls consistently leads to improved health outcomes for the beneficiaries of the program. These two observations combined suggest the positive effect of AI-based intervention scheduling on behavioral and health outcomes. This study analyzes the relationship between the two. Specifically, we are interested in mothers' health knowledge in the post-natal period, measured through survey questions. We present evidence that improved listenership through AI-scheduled interventions leads to a better understanding of key health issues during pregnancy and infancy. This improved understanding has the potential to benefit the health outcomes of mothers and their babies., Comment: Accepted at Autonomous Agents for Social Good (AASG) workshop at AAMAS'24

Published

2024

15. Improving Health Information Access in the World's Largest Maternal Mobile Health Program via Bandit Algorithms

Author

Lalan, Arshika, Verma, Shresth, Diaz, Paula Rodriguez, Danassis, Panayiotis, Mahale, Amrita, Sudan, Kumar Madhu, Hegde, Aparna, Tambe, Milind, and Taneja, Aparna

Subjects

Computer Science - Computers and Society, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Multiagent Systems

Abstract

Harnessing the wide-spread availability of cell phones, many nonprofits have launched mobile health (mHealth) programs to deliver information via voice or text to beneficiaries in underserved communities, with maternal and infant health being a key area of such mHealth programs. Unfortunately, dwindling listenership is a major challenge, requiring targeted interventions using limited resources. This paper focuses on Kilkari, the world's largest mHealth program for maternal and child care - with over 3 million active subscribers at a time - launched by India's Ministry of Health and Family Welfare (MoHFW) and run by the non-profit ARRMAN. We present a system called CHAHAK that aims to reduce automated dropouts as well as boost engagement with the program through the strategic allocation of interventions to beneficiaries. Past work in a similar domain has focused on a much smaller scale mHealth program and used markovian restless multiarmed bandits to optimize a single limited intervention resource. However this paper demonstrates the challenges in adopting a markovian approach in Kilkari; therefore CHAHAK instead relies on non-markovian time-series restless bandits, and optimizes multiple interventions to improve listenership. We use real Kilkari data from the Odisha state in India to show CHAHAK's effectiveness in harnessing multiple interventions to boost listenership, benefiting marginalized communities. When deployed CHAHAK will assist the largest maternal mHealth program to date., Comment: Published at Innovative Applications of Artificial Intelligence (IAAI 2024)

Published

2024

16. Auditing the Use of Language Models to Guide Hiring Decisions

Author

Gaebler, Johann D., Goel, Sharad, Huq, Aziz, and Tambe, Prasanna

Subjects

Statistics - Applications, Computer Science - Computation and Language

Abstract

Regulatory efforts to protect against algorithmic bias have taken on increased urgency with rapid advances in large language models (LLMs), which are machine learning models that can achieve performance rivaling human experts on a wide array of tasks. A key theme of these initiatives is algorithmic "auditing," but current regulations -- as well as the scientific literature -- provide little guidance on how to conduct these assessments. Here we propose and investigate one approach for auditing algorithms: correspondence experiments, a widely applied tool for detecting bias in human judgements. In the employment context, correspondence experiments aim to measure the extent to which race and gender impact decisions by experimentally manipulating elements of submitted application materials that suggest an applicant's demographic traits, such as their listed name. We apply this method to audit candidate assessments produced by several state-of-the-art LLMs, using a novel corpus of applications to K-12 teaching positions in a large public school district. We find evidence of moderate race and gender disparities, a pattern largely robust to varying the types of application material input to the models, as well as the framing of the task to the LLMs. We conclude by discussing some important limitations of correspondence experiments for auditing algorithms.

Published

2024

17. Application-Driven Innovation in Machine Learning

Author

Rolnick, David, Aspuru-Guzik, Alan, Beery, Sara, Dilkina, Bistra, Donti, Priya L., Ghassemi, Marzyeh, Kerner, Hannah, Monteleoni, Claire, Rolf, Esther, Tambe, Milind, and White, Adam

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

As applications of machine learning proliferate, innovative algorithms inspired by specific real-world challenges have become increasingly important. Such work offers the potential for significant impact not merely in domains of application but also in machine learning itself. In this paper, we describe the paradigm of application-driven research in machine learning, contrasting it with the more standard paradigm of methods-driven research. We illustrate the benefits of application-driven machine learning and how this approach can productively synergize with methods-driven work. Despite these benefits, we find that reviewing, hiring, and teaching practices in machine learning often hold back application-driven innovation. We outline how these processes may be improved., Comment: 12 pages, 3 figures

Published

2024

18. Efficient Public Health Intervention Planning Using Decomposition-Based Decision-Focused Learning

Author

Shah, Sanket, Suggala, Arun, Tambe, Milind, and Taneja, Aparna

Subjects

Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

The declining participation of beneficiaries over time is a key concern in public health programs. A popular strategy for improving retention is to have health workers `intervene' on beneficiaries at risk of dropping out. However, the availability and time of these health workers are limited resources. As a result, there has been a line of research on optimizing these limited intervention resources using Restless Multi-Armed Bandits (RMABs). The key technical barrier to using this framework in practice lies in the need to estimate the beneficiaries' RMAB parameters from historical data. Recent research has shown that Decision-Focused Learning (DFL), which focuses on maximizing the beneficiaries' adherence rather than predictive accuracy, improves the performance of intervention targeting using RMABs. Unfortunately, these gains come at a high computational cost because of the need to solve and evaluate the RMAB in each DFL training step. In this paper, we provide a principled way to exploit the structure of RMABs to speed up intervention planning by cleverly decoupling the planning for different beneficiaries. We use real-world data from an Indian NGO, ARMMAN, to show that our approach is up to two orders of magnitude faster than the state-of-the-art approach while also yielding superior model performance. This would enable the NGO to scale up deployments using DFL to potentially millions of mothers, ultimately advancing progress toward UNSDG 3.1., Comment: 12 pages, 3 figures, 2 tables

Published

2024

19. External Quality Assurance Helps Improve Infrastructure for Testing Breast Biomarkers Across a Lower- and Middle-Income Country: Our Experience With Breast Biomarker Testing in the National Cancer Grid External Quality Assurance System in India

Author

Shet, Tanuja, Tambe, Sonali, Phadatare, Nitin, Panjwani, Poonam, Desai, Sangeeta, Sengar, Manju, and Pramesh, C.S.

Subjects

Quality control, Immunohistochemistry -- Methods, Breast cancer -- Physiological aspects -- Care and treatment, Biological markers -- Evaluation, Quality control -- Methods

Abstract

* Context.--Biomarkers in breast cancer need strict monitoring given their role in patient management. Objective.--To study the impact that regular participation in the National Cancer Grid (NCG) external quality assurance (EQA) system has on concordance rates for biomarkers in breast carcinoma. Design.--Tissue microarrays (TMAs) containing breast carcinomas were circulated to participating laboratories that performed immunohistochemistry for breast biomarkers. The returned TMAs were then assessed for test concordance. Results.--A total of 105 laboratories participated in the estrogen receptor (ER) and progesterone receptor (PR) EQA system cycles, and 99 centers participated in the human epidermal growth factor 2 (HER2) EQA system. In the ER EQA in the first cycle only 1 laboratory had a 100% concordance rate, which improved to 59 of 77 (76.6%) and 85 of 97 (87.6%) in the fourth and fifth cycles, respectively. In the PR EQA the 100% pass rate jumped from zero to 52 of 76 (68.4%) in the fourth cycle and 86 of 97 (88.6%) in the last cycle. For HER2 EQA, the 100% pass rates were seen in 7 of 23 laboratories (30.4%) in the first cycle, 49 of 78 laboratories (62.8%) in the fourth cycle, and 48 of 94 laboratories (51.1%) in fifth cycle of EQA. Centers that participated in the NCG EQA system for a longer period often changed testing methodology, with consequent improvement in their laboratory concordance rates. An increasing trend for the use of automated platforms and of the US Food and Drug Administration-approved antibody for HER2 testing was observed. Conclusions.--Our experience demonstrates that laboratory performance improves with participation in an EQA system even in less perfect settings, and this drives the placement of more proficient practices across the country. (Arch Pathol Lab Med. 2024;148:1028-1034; doi: 10.5858/arpa.2023-0260-OA), Biomarker testing is at the crux of the successful management of patients with breast cancer. However, an estimation of approximately 20% of results for estrogen receptor (ER) and progesterone receptor [...]

Published

2024

20. Bioinspired phosphorus functionalized polycarbazole as highly potent flame retardants and hydrophobic material for smart textile applications

Author

Bhakare, Madhuri, Lokhande, Kshama, Bondarde, Mahesh, Dhumal, Pratik, Tambe, Pranay, and Some, Surajit

Published

2024

21. Heterogeneous genetic architectures of prostate cancer susceptibility in sub-Saharan Africa

Author

Janivara, Rohini, Chen, Wenlong C., Hazra, Ujani, Baichoo, Shakuntala, Agalliu, Ilir, Kachambwa, Paidamoyo, Simonti, Corrine N., Brown, Lyda M., Tambe, Saanika P., Kim, Michelle S., Harlemon, Maxine, Jalloh, Mohamed, Muzondiwa, Dillon, Naidoo, Daphne, Ajayi, Olabode O., Snyper, Nana Yaa, Niang, Lamine, Diop, Halimatou, Ndoye, Medina, Mensah, James E., Abrahams, Afua O. D., Biritwum, Richard, Adjei, Andrew A., Adebiyi, Akindele O., Shittu, Olayiwola, Ogunbiyi, Olufemi, Adebayo, Sikiru, Nwegbu, Maxwell M., Ajibola, Hafees O., Oluwole, Olabode P., Jamda, Mustapha A., Pentz, Audrey, Haiman, Christopher A., Spies, Petrus V., van der Merwe, André, Cook, Michael B., Chanock, Stephen J., Berndt, Sonja I., Watya, Stephen, Lubwama, Alexander, Muchengeti, Mazvita, Doherty, Sean, Smyth, Natalie, Lounsbury, David, Fortier, Brian, Rohan, Thomas E., Jacobson, Judith S., Neugut, Alfred I., Hsing, Ann W., Gusev, Alexander, Aisuodionoe-Shadrach, Oseremen I., Joffe, Maureen, Adusei, Ben, Gueye, Serigne M., Fernandez, Pedro W., McBride, Jo, Andrews, Caroline, Petersen, Lindsay N., Lachance, Joseph, and Rebbeck, Timothy R.

Published

2024

22. A Decision-Language Model (DLM) for Dynamic Restless Multi-Armed Bandit Tasks in Public Health

Author

Behari, Nikhil, Zhang, Edwin, Zhao, Yunfan, Taneja, Aparna, Nagaraj, Dheeraj, and Tambe, Milind

Subjects

Computer Science - Multiagent Systems, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Restless multi-armed bandits (RMAB) have demonstrated success in optimizing resource allocation for large beneficiary populations in public health settings. Unfortunately, RMAB models lack flexibility to adapt to evolving public health policy priorities. Concurrently, Large Language Models (LLMs) have emerged as adept automated planners across domains of robotic control and navigation. In this paper, we propose a Decision Language Model (DLM) for RMABs, enabling dynamic fine-tuning of RMAB policies in public health settings using human-language commands. We propose using LLMs as automated planners to (1) interpret human policy preference prompts, (2) propose reward functions as code for a multi-agent RMAB environment, and (3) iterate on the generated reward functions using feedback from grounded RMAB simulations. We illustrate the application of DLM in collaboration with ARMMAN, an India-based non-profit promoting preventative care for pregnant mothers, that currently relies on RMAB policies to optimally allocate health worker calls to low-resource populations. We conduct a technology demonstration in simulation using the Gemini Pro model, showing DLM can dynamically shape policy outcomes using only human prompts as input.

Published

2024

23. Social Environment Design

Author

Zhang, Edwin, Zhao, Sadie, Wang, Tonghan, Hossain, Safwan, Gasztowtt, Henry, Zheng, Stephan, Parkes, David C., Tambe, Milind, and Chen, Yiling

Subjects

Computer Science - Artificial Intelligence, Economics - General Economics, Statistics - Machine Learning

Abstract

Artificial Intelligence (AI) holds promise as a technology that can be used to improve government and economic policy-making. This paper proposes a new research agenda towards this end by introducing Social Environment Design, a general framework for the use of AI for automated policy-making that connects with the Reinforcement Learning, EconCS, and Computational Social Choice communities. The framework seeks to capture general economic environments, includes voting on policy objectives, and gives a direction for the systematic analysis of government and economic policy through AI simulation. We highlight key open problems for future research in AI-based policy-making. By solving these challenges, we hope to achieve various social welfare objectives, thereby promoting more ethical and responsible decision making., Comment: ICML 2024 Position Paper. Website at https://sed.eddie.win

Published

2024

24. G\'ortler number-based scaling of boundary-layer transition on rotating cones in axial inflow

Author

Tambe, Sumit, Kato, Kentaro, and Hussain, Zahir

Subjects

Physics - Fluid Dynamics

Abstract

This paper reports on the efficacy of the G\"ortler number in scaling the laminar-turbulent boundary-layer transition on rotating cones facing axial inflow. Depending on the half-cone angle $\psi$ and axial flow strength, the competing centrifugal and crossflow instabilities dominate the transition. Traditionally, the flow is evaluated by using two parameters: the local meridional Reynolds number $Re_l$ comparing the inertial versus viscous effects and the local rotational speed ratio $S$ accounting for the boundary-layer skew. We focus on the centrifugal effects, and evaluate the flow fields and reported transition points using G\"ortler number based on the azimuthal momentum thickness of the similarity solution and local cone radius. The results show that G\"ortler number alone dominates the late stages of transition (maximum amplification and turbulence onset phases) for a wide range of investigated $S$ and half-cone angle ($15^{\circ} \leq \psi \leq 50^{\circ}$), although the early stage (critical phase) seems to be not determined by the G\"ortler number alone on the broader cones ($\psi=30^{\circ}$ and $50^{\circ}$) where the primary crossflow instability dominates the flow. Overall, this indicates that the centrifugal effects play an important role in the boundary-layer transition on rotating cones in axial inflow., Comment: 12 pages, 6 figures, accepted for publication in JFM Rapids

Published

2024

25. Evaluating the Effectiveness of Index-Based Treatment Allocation

Author

Boehmer, Niclas, Nair, Yash, Shah, Sanket, Janson, Lucas, Taneja, Aparna, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Methodology, Statistics - Machine Learning

Abstract

When resources are scarce, an allocation policy is needed to decide who receives a resource. This problem occurs, for instance, when allocating scarce medical resources and is often solved using modern ML methods. This paper introduces methods to evaluate index-based allocation policies -- that allocate a fixed number of resources to those who need them the most -- by using data from a randomized control trial. Such policies create dependencies between agents, which render the assumptions behind standard statistical tests invalid and limit the effectiveness of estimators. Addressing these challenges, we translate and extend recent ideas from the statistics literature to present an efficient estimator and methods for computing asymptotically correct confidence intervals. This enables us to effectively draw valid statistical conclusions, a critical gap in previous work. Our extensive experiments validate our methodology in practical settings, while also showcasing its statistical power. We conclude by proposing and empirically verifying extensions of our methodology that enable us to reevaluate a past randomized control trial to evaluate different ML allocation policies in the context of a mHealth program, drawing previously invisible conclusions.

Published

2024

26. A Bayesian Approach to Online Learning for Contextual Restless Bandits with Applications to Public Health

Author

Liang, Biyonka, Xu, Lily, Taneja, Aparna, Tambe, Milind, and Janson, Lucas

Subjects

Computer Science - Machine Learning, Statistics - Applications

Abstract

Public health programs often provide interventions to encourage beneficiary adherence,and effectively allocating interventions is vital for producing the greatest overall health outcomes. Such resource allocation problems are often modeled as restless multi-armed bandits (RMABs) with unknown underlying transition dynamics, hence requiring online reinforcement learning (RL). We present Bayesian Learning for Contextual RMABs (BCoR), an online RL approach for RMABs that novelly combines techniques in Bayesian modeling with Thompson sampling to flexibly model the complex RMAB settings present in public health program adherence problems, such as context and non-stationarity. BCoR's key strength is the ability to leverage shared information within and between arms to learn the unknown RMAB transition dynamics quickly in intervention-scarce settings with relatively short time horizons, which is common in public health applications. Empirically, BCoR achieves substantially higher finite-sample performance over a range of experimental settings, including an example based on real-world adherence data that was developed in collaboration with ARMMAN, an NGO in India which runs a large-scale maternal health program, showcasing BCoR practical utility and potential for real-world deployment., Comment: 26 pages, 18 figures

Published

2024

27. Mass-Radius relationship of Strongly Magnetized Super-Chandrasekhar Anisotropic Deformed White Dwarf Stars in presence of $\gamma$-metric

Author

Sahoo, Rajasmita, Anant, Tambe Pranjal, and Mukhopadhyay, Somnath

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The masses and radii of strongly magnetized anisotropic deformed white dwarf stars are investigated using the stellar structure equations in the parameterized $\gamma$-metric formalism. The Equation of State (EoS) of a completely degenerate relativistic electron gas in strong quantizing density-dependent magnetic field is developed. The fluid and field pressure anisotropy among the parallel and perpendicular components to the magnetic field is taken into consideration. This anisotropy in the EoS causes axisymmetric deformation of the star. We found stable solutions of deformed super-Chandrasekhar ultramassive white dwarfs. The masses of anisotropic magnetized white dwarfs at the same central density decrease monotonically with the increase in the strength of the central magnetic field, while the equatorial radii increase monotonically. This is in sharp contrast to the isotropic case where both the mass and radius increase monotonically. High magnetic field increases anisotropy and oblateness. We also see that the maximum mass and its corresponding equatorial radius both decrease as central magnetic field strength increases. We also notice that the maximum mass occurs at higher central density as the magnetic field increases. This shows that increasing magnetic field (hence increasing anisotropy) softens the EoS and makes the star more compact.

Published

2024

28. Toward Computationally Efficient Inverse Reinforcement Learning via Reward Shaping

Author

Cooke, Lauren H., Klyne, Harvey, Zhang, Edwin, Laidlaw, Cassidy, Tambe, Milind, and Doshi-Velez, Finale

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Statistics - Machine Learning

Abstract

Inverse reinforcement learning (IRL) is computationally challenging, with common approaches requiring the solution of multiple reinforcement learning (RL) sub-problems. This work motivates the use of potential-based reward shaping to reduce the computational burden of each RL sub-problem. This work serves as a proof-of-concept and we hope will inspire future developments towards computationally efficient IRL.

Published

2023

29. An Experimental Educational Tool for Financial Literacy in Children of 3–10 Years

Author

Majumder, Debashis, Dasgupta, Ipsita, Tambe, Mugdha, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Deepak, B B V L, editor, Bahubalendruni, M.V.A. Raju, editor, Parhi, D.R.K., editor, and Biswal, B. B., editor

Published

2025

30. IRL for Restless Multi-armed Bandits with Applications in Maternal and Child Health

Author

Jain, Gauri, Varakantham, Pradeep, Xu, Haifeng, Taneja, Aparna, Doshi, Prashant, Tambe, Milind, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Hadfi, Rafik, editor, Anthony, Patricia, editor, Sharma, Alok, editor, Ito, Takayuki, editor, and Bai, Quan, editor

Published

2025

31. Building Change Detection Using Deep-SiamCNN Network Through Two-Stream Triplet Attention Mechanism

Author

Tambe, Rishikesh G., Talbar, Sanjay N., and Chavan, Satish Kumar

Published

2024

32. Post-Hospitalization Home Monitoring Programs During the COVID-19 Pandemic: Survey Results from the Hospital Medicine Re-engineering Network (HOMERuN)

Author

Bann, Maralyssa, Manjarrez, Efren, Kellner, Christopher P., Greysen, Ryan, Davis, Clark, Lee, Tiffany, Soleimanpour, Neeloofar, Tambe, Neal, Auerbach, Andrew, and Schnipper, Jeffrey L.

Published

2024

33. Analyzing and Predicting Low-Listenership Trends in a Large-Scale Mobile Health Program: A Preliminary Investigation

Author

Lalan, Arshika, Verma, Shresth, Sudan, Kumar Madhu, Mahale, Amrita, Hegde, Aparna, Tambe, Milind, and Taneja, Aparna

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems

Abstract

Mobile health programs are becoming an increasingly popular medium for dissemination of health information among beneficiaries in less privileged communities. Kilkari is one of the world's largest mobile health programs which delivers time sensitive audio-messages to pregnant women and new mothers. We have been collaborating with ARMMAN, a non-profit in India which operates the Kilkari program, to identify bottlenecks to improve the efficiency of the program. In particular, we provide an initial analysis of the trajectories of beneficiaries' interaction with the mHealth program and examine elements of the program that can be potentially enhanced to boost its success. We cluster the cohort into different buckets based on listenership so as to analyze listenership patterns for each group that could help boost program success. We also demonstrate preliminary results on using historical data in a time-series prediction to identify beneficiary dropouts and enable NGOs in devising timely interventions to strengthen beneficiary retention., Comment: Accepted to Data Science for Social Good Workshop, KDD 2023

Published

2023

34. Potato Leaf Disease Classification using Deep Learning: A Convolutional Neural Network Approach

Author

Tambe, Utkarsh Yashwant, Shobanadevi, A., Shanthini, A., and Hsu, Hsiu-Chun

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

In this study, a Convolutional Neural Network (CNN) is used to classify potato leaf illnesses using Deep Learning. The suggested approach entails preprocessing the leaf image data, training a CNN model on that data, and assessing the model's success on a test set. The experimental findings show that the CNN model, with an overall accuracy of 99.1%, is highly accurate in identifying two kinds of potato leaf diseases, including Early Blight, Late Blight, and Healthy. The suggested method may offer a trustworthy and effective remedy for identifying potato diseases, which is essential for maintaining food security and minimizing financial losses in agriculture. The model can accurately recognize the various disease types even when there are severe infections present. This work highlights the potential of deep learning methods for categorizing potato diseases, which can help with effective and automated disease management in potato farming., Comment: Accepted at the International Conference on Recent Trends in Data Science and its Applications (ICRTDA 2023), 6 pages, 6 figures, 1 table

Published

2023

35. Towards a Pretrained Model for Restless Bandits via Multi-arm Generalization

Author

Zhao, Yunfan, Behari, Nikhil, Hughes, Edward, Zhang, Edwin, Nagaraj, Dheeraj, Tuyls, Karl, Taneja, Aparna, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Restless multi-arm bandits (RMABs), a class of resource allocation problems with broad application in areas such as healthcare, online advertising, and anti-poaching, have recently been studied from a multi-agent reinforcement learning perspective. Prior RMAB research suffers from several limitations, e.g., it fails to adequately address continuous states, and requires retraining from scratch when arms opt-in and opt-out over time, a common challenge in many real world applications. We address these limitations by developing a neural network-based pre-trained model (PreFeRMAB) that has general zero-shot ability on a wide range of previously unseen RMABs, and which can be fine-tuned on specific instances in a more sample-efficient way than retraining from scratch. Our model also accommodates general multi-action settings and discrete or continuous state spaces. To enable fast generalization, we learn a novel single policy network model that utilizes feature information and employs a training procedure in which arms opt-in and out over time. We derive a new update rule for a crucial $\lambda$-network with theoretical convergence guarantees and empirically demonstrate the advantages of our approach on several challenging, real-world inspired problems.

Published

2023

36. VaPr: Variable-Precision Tensors to Accelerate Robot Motion Planning

Author

Hsiao, Yu-Shun, Hari, Siva Kumar Sastry, Sundaralingam, Balakumar, Yik, Jason, Tambe, Thierry, Sakr, Charbel, Keckler, Stephen W., and Reddi, Vijay Janapa

Subjects

Computer Science - Robotics

Abstract

High-dimensional motion generation requires numerical precision for smooth, collision-free solutions. Typically, double-precision or single-precision floating-point (FP) formats are utilized. Using these for big tensors imposes a strain on the memory bandwidth provided by the devices and alters the memory footprint, hence limiting their applicability to low-power edge devices needed for mobile robots. The uniform application of reduced precision can be advantageous but severely degrades solutions. Using decreased precision data types for important tensors, we propose to accelerate motion generation by removing memory bottlenecks. We propose variable-precision (VaPr) search optimization to determine the appropriate precision for large tensors from a vast search space of approximately 4 million unique combinations for FP data types across the tensors. To obtain the efficiency gains, we exploit existing platform support for an out-of-the-box GPU speedup and evaluate prospective precision converter units for GPU types that are not currently supported. Our experimental results on 800 planning problems for the Franka Panda robot on the MotionBenchmaker dataset across 8 environments show that a 4-bit FP format is sufficient for the largest set of tensors in the motion generation stack. With the software-only solution, VaPr achieves 6.3% and 6.3% speedups on average for a significant portion of motion generation over the SOTA solution (CuRobo) on Jetson Orin and RTX2080 Ti GPU, respectively, and 9.9%, 17.7% speedups with the FP converter., Comment: 7 pages, 5 figures, 8 tables, to be published in 2023 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

Published

2023

37. Venetoclax triggers sublethal apoptotic signaling in venetoclax-resistant acute myeloid leukemia cells and induces vulnerability to PARP inhibition and azacitidine

Author

Tambe, Mahesh, Unterberger, Sarah, Kriegbaum, Mette C., Vänttinen, Ida, Olgac, Ezgi June, Vähä-Koskela, Markus, Kontro, Mika, Wennerberg, Krister, and Heckman, Caroline A.

Published

2024

38. Convolutional neural network for colorimetric glucose detection using a smartphone and novel multilayer polyvinyl film microfluidic device

Author

Mithun Kanchan, Prasad Kisan Tambe, Sanjay Bharati, and Omkar S Powar

Subjects

Colorimetry, Convolution neural networks, Glucose, Image processing, Deep learning, Microfluidics, Medicine, Science

Abstract

Abstract Detecting glucose levels is crucial for diabetes patients as it enables timely and effective management, preventing complications and promoting overall health. In this endeavor, we have designed a novel, affordable point-of-care diagnostic device utilizing microfluidic principles, a smartphone camera, and established laboratory colorimetric methods for accurate glucose estimation. Our proposed microfluidic device comprises layers of adhesive poly-vinyl films stacked on a poly methyl methacrylate (PMMA) base sheet, with micro-channel contours precision-cut using a cutting printer. Employing the gold standard glucose-oxidase/peroxidase reaction on this microfluidic platform, we achieve enzymatic glucose determination. The resulting colored complex, formed by phenol and 4-aminoantipyrine in the presence of hydrogen peroxide generated during glucose oxidation, is captured at various glucose concentrations using a smartphone camera. Raw images are processed and utilized as input data for a 2-D convolutional neural network (CNN) deep learning classifier, demonstrating an impressive 95% overall accuracy against new images. The glucose predictions done by CNN are compared with ISO 15197:2013/2015 gold standard norms. Furthermore, the classifier exhibits outstanding precision, recall, and F1 score of 94%, 93%, and 93%, respectively, as validated through our study, showcasing its exceptional predictive capability. Next, a user-friendly smartphone application named “GLUCOLENS AI” was developed to capture images, perform image processing, and communicate with cloud server containing the CNN classifier. The developed CNN model can be successfully used as a pre-trained model for future glucose concentration predictions.

Published

2024

39. Venetoclax triggers sublethal apoptotic signaling in venetoclax-resistant acute myeloid leukemia cells and induces vulnerability to PARP inhibition and azacitidine

Author

Mahesh Tambe, Sarah Unterberger, Mette C. Kriegbaum, Ida Vänttinen, Ezgi June Olgac, Markus Vähä-Koskela, Mika Kontro, Krister Wennerberg, and Caroline A. Heckman

Subjects

Cytology, QH573-671

Abstract

Abstract Venetoclax plus azacitidine treatment is clinically beneficial for elderly and unfit acute myeloid leukemia (AML) patients. However, the treatment is rarely curative, and relapse due to resistant disease eventually emerges. Since no current clinically feasible treatments are known to be effective at the state of acquired venetoclax resistance, this is becoming a major challenge in AML treatment. Studying venetoclax-resistant AML cell lines, we observed that venetoclax induced sublethal apoptotic signaling and DNA damage even though cell survival and growth were unaffected. This effect could be due to venetoclax inducing a sublethal degree of mitochondrial outer membrane permeabilization. Based on these results, we hypothesized that the sublethal apoptotic signaling induced by venetoclax could constitute a vulnerability in venetoclax-resistant AML cells. This was supported by screens with a broad collection of drugs, where we observed a synergistic effect between venetoclax and PARP inhibition in venetoclax-resistant cells. Additionally, the venetoclax-PARP inhibitor combination prevented the acquisition of venetoclax resistance in treatment naïve AML cell lines. Furthermore, the addition of azacitidine to the venetoclax-PARP inhibitor combination enhanced venetoclax induced DNA damage and exhibited exceptional sensitivity and long-term responses in the venetoclax-resistant AML cell lines and samples from AML patients that had clinically relapsed under venetoclax-azacitidine therapy. In conclusion, we mechanistically identify a new vulnerability in acquired venetoclax-resistant AML cells and identify PARP inhibition as a potential therapeutic approach to overcome acquired venetoclax resistance in AML.

Published

2024

40. Bacterial growth in breast milk expressed under hygienic control: a pilot study

Author

Mika Miyatake, Yukihiro Tambe, and Yumiko Tateoka

Subjects

Breast milk, Nipple skin wiping, Bacteria, Storage, Hygiene, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective In this pilot study, we verified safe practices for breast milk expression, storage, and duration, based on bacteriological results. Results We collected breast milk samples from three healthy lactating volunteers and analyzed the bacterial flora and changes in the viable bacterial counts (including those of Staphylococcus) of the samples. Although no consistent change could be observed in the abundance of a particular bacterial group in samples expressed under hygienic control conditions, viable bacterial counts were higher in self-expressed milk than in milk expressed under hygienic control conditions. In conclusion, increased hygiene awareness is vital during breast milk expression and storage.

Published

2024

41. Equitable Restless Multi-Armed Bandits: A General Framework Inspired By Digital Health

Author

Killian, Jackson A., Jain, Manish, Jia, Yugang, Amar, Jonathan, Huang, Erich, and Tambe, Milind

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Multiagent Systems

Abstract

Restless multi-armed bandits (RMABs) are a popular framework for algorithmic decision making in sequential settings with limited resources. RMABs are increasingly being used for sensitive decisions such as in public health, treatment scheduling, anti-poaching, and -- the motivation for this work -- digital health. For such high stakes settings, decisions must both improve outcomes and prevent disparities between groups (e.g., ensure health equity). We study equitable objectives for RMABs (ERMABs) for the first time. We consider two equity-aligned objectives from the fairness literature, minimax reward and max Nash welfare. We develop efficient algorithms for solving each -- a water filling algorithm for the former, and a greedy algorithm with theoretically motivated nuance to balance disparate group sizes for the latter. Finally, we demonstrate across three simulation domains, including a new digital health model, that our approaches can be multiple times more equitable than the current state of the art without drastic sacrifices to utility. Our findings underscore our work's urgency as RMABs permeate into systems that impact human and wildlife outcomes. Code is available at https://github.com/google-research/socialgood/tree/equitable-rmab, Comment: 16 pages, 8 figures, 2 tables

Published

2023

42. Reflections from the Workshop on AI-Assisted Decision Making for Conservation

Author

Xu, Lily, Rolf, Esther, Beery, Sara, Bennett, Joseph R., Berger-Wolf, Tanya, Birch, Tanya, Bondi-Kelly, Elizabeth, Brashares, Justin, Chapman, Melissa, Corso, Anthony, Davies, Andrew, Garg, Nikhil, Gaylard, Angela, Heilmayr, Robert, Kerner, Hannah, Klemmer, Konstantin, Kumar, Vipin, Mackey, Lester, Monteleoni, Claire, Moorcroft, Paul, Palmer, Jonathan, Perrault, Andrew, Thau, David, and Tambe, Milind

Subjects

Computer Science - Artificial Intelligence

Abstract

In this white paper, we synthesize key points made during presentations and discussions from the AI-Assisted Decision Making for Conservation workshop, hosted by the Center for Research on Computation and Society at Harvard University on October 20-21, 2022. We identify key open research questions in resource allocation, planning, and interventions for biodiversity conservation, highlighting conservation challenges that not only require AI solutions, but also require novel methodological advances. In addition to providing a summary of the workshop talks and discussions, we hope this document serves as a call-to-action to orient the expansion of algorithmic decision-making approaches to prioritize real-world conservation challenges, through collaborative efforts of ecologists, conservation decision-makers, and AI researchers., Comment: Co-authored by participants from the October 2022 workshop: https://crcs.seas.harvard.edu/conservation-workshop

Published

2023

43. Reward Mobilisation and the Participation of Resource-Poor Citizens

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

44. Policy Preferences and the Participation of Resource-Rich Citizens

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

45. Conclusion

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

46. Regime Type, Democratic Quality and the Participation of Resource-Rich Citizens

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

47. Group Membership and the Mobilisation of Resource-Poor Voters

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

48. Socioeconomic Status and Voting in Africa: A Closer Look

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

49. Institutional Context

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024

50. The Puzzle

Author

Bisong Tambe, Elvis and Bisong Tambe, Elvis

Published

2024