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Main Authors: Liu, Michael Xieyang, Petridis, Savvas, Tsai, Vivian, Fiannaca, Alexander J., Olwal, Alex, Terry, Michael, Cai, Carrie J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.15727
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author Liu, Michael Xieyang
Petridis, Savvas
Tsai, Vivian
Fiannaca, Alexander J.
Olwal, Alex
Terry, Michael
Cai, Carrie J.
author_facet Liu, Michael Xieyang
Petridis, Savvas
Tsai, Vivian
Fiannaca, Alexander J.
Olwal, Alex
Terry, Michael
Cai, Carrie J.
contents Multimodal large language models (MLLMs), with their expansive world knowledge and reasoning capabilities, present a unique opportunity for end-users to create personalized AI sensors capable of reasoning about complex situations. A user could describe a desired sensing task in natural language (e.g., "alert if my toddler is getting into mischief"), with the MLLM analyzing the camera feed and responding within seconds. In a formative study, we found that users saw substantial value in defining their own sensors, yet struggled to articulate their unique personal requirements and debug the sensors through prompting alone. To address these challenges, we developed Gensors, a system that empowers users to define customized sensors supported by the reasoning capabilities of MLLMs. Gensors 1) assists users in eliciting requirements through both automatically-generated and manually created sensor criteria, 2) facilitates debugging by allowing users to isolate and test individual criteria in parallel, 3) suggests additional criteria based on user-provided images, and 4) proposes test cases to help users "stress test" sensors on potentially unforeseen scenarios. In a user study, participants reported significantly greater sense of control, understanding, and ease of communication when defining sensors using Gensors. Beyond addressing model limitations, Gensors supported users in debugging, eliciting requirements, and expressing unique personal requirements to the sensor through criteria-based reasoning; it also helped uncover users' "blind spots" by exposing overlooked criteria and revealing unanticipated failure modes. Finally, we discuss how unique characteristics of MLLMs--such as hallucinations and inconsistent responses--can impact the sensor-creation process. These findings contribute to the design of future intelligent sensing systems that are intuitive and customizable by everyday users.
format Preprint
id arxiv_https___arxiv_org_abs_2501_15727
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Gensors: Authoring Personalized Visual Sensors with Multimodal Foundation Models and Reasoning
Liu, Michael Xieyang
Petridis, Savvas
Tsai, Vivian
Fiannaca, Alexander J.
Olwal, Alex
Terry, Michael
Cai, Carrie J.
Human-Computer Interaction
Artificial Intelligence
Multimodal large language models (MLLMs), with their expansive world knowledge and reasoning capabilities, present a unique opportunity for end-users to create personalized AI sensors capable of reasoning about complex situations. A user could describe a desired sensing task in natural language (e.g., "alert if my toddler is getting into mischief"), with the MLLM analyzing the camera feed and responding within seconds. In a formative study, we found that users saw substantial value in defining their own sensors, yet struggled to articulate their unique personal requirements and debug the sensors through prompting alone. To address these challenges, we developed Gensors, a system that empowers users to define customized sensors supported by the reasoning capabilities of MLLMs. Gensors 1) assists users in eliciting requirements through both automatically-generated and manually created sensor criteria, 2) facilitates debugging by allowing users to isolate and test individual criteria in parallel, 3) suggests additional criteria based on user-provided images, and 4) proposes test cases to help users "stress test" sensors on potentially unforeseen scenarios. In a user study, participants reported significantly greater sense of control, understanding, and ease of communication when defining sensors using Gensors. Beyond addressing model limitations, Gensors supported users in debugging, eliciting requirements, and expressing unique personal requirements to the sensor through criteria-based reasoning; it also helped uncover users' "blind spots" by exposing overlooked criteria and revealing unanticipated failure modes. Finally, we discuss how unique characteristics of MLLMs--such as hallucinations and inconsistent responses--can impact the sensor-creation process. These findings contribute to the design of future intelligent sensing systems that are intuitive and customizable by everyday users.
title Gensors: Authoring Personalized Visual Sensors with Multimodal Foundation Models and Reasoning
topic Human-Computer Interaction
Artificial Intelligence
url https://arxiv.org/abs/2501.15727