Search

Your search keyword '"Clegg, Alexander"' showing total 29 results
Start Over Author "Clegg, Alexander"
29 results on '"Clegg, Alexander"'

1. Towards Open-World Mobile Manipulation in Homes: Lessons from the Neurips 2023 HomeRobot Open Vocabulary Mobile Manipulation Challenge

Author

Yenamandra, Sriram, Ramachandran, Arun, Khanna, Mukul, Yadav, Karmesh, Vakil, Jay, Melnik, Andrew, Büttner, Michael, Harz, Leon, Brown, Lyon, Nandi, Gora Chand, PS, Arjun, Yadav, Gaurav Kumar, Kala, Rahul, Haschke, Robert, Luo, Yang, Zhu, Jinxin, Han, Yansen, Lu, Bingyi, Gu, Xuan, Liu, Qinyuan, Zhao, Yaping, Ye, Qiting, Dou, Chenxiao, Chua, Yansong, Kuzma, Volodymyr, Humennyy, Vladyslav, Partsey, Ruslan, Francis, Jonathan, Chaplot, Devendra Singh, Chhablani, Gunjan, Clegg, Alexander, Gervet, Theophile, Jain, Vidhi, Ramrakhya, Ram, Szot, Andrew, Wang, Austin, Yang, Tsung-Yen, Edsinger, Aaron, Kemp, Charlie, Shah, Binit, Kira, Zsolt, Batra, Dhruv, Mottaghi, Roozbeh, Bisk, Yonatan, and Paxton, Chris

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

In order to develop robots that can effectively serve as versatile and capable home assistants, it is crucial for them to reliably perceive and interact with a wide variety of objects across diverse environments. To this end, we proposed Open Vocabulary Mobile Manipulation as a key benchmark task for robotics: finding any object in a novel environment and placing it on any receptacle surface within that environment. We organized a NeurIPS 2023 competition featuring both simulation and real-world components to evaluate solutions to this task. Our baselines on the most challenging version of this task, using real perception in simulation, achieved only an 0.8% success rate; by the end of the competition, the best participants achieved an 10.8\% success rate, a 13x improvement. We observed that the most successful teams employed a variety of methods, yet two common threads emerged among the best solutions: enhancing error detection and recovery, and improving the integration of perception with decision-making processes. In this paper, we detail the results and methodologies used, both in simulation and real-world settings. We discuss the lessons learned and their implications for future research. Additionally, we compare performance in real and simulated environments, emphasizing the necessity for robust generalization to novel settings.

Published
2024

2. Controllable Human-Object Interaction Synthesis

Author

Li, Jiaman, Clegg, Alexander, Mottaghi, Roozbeh, Wu, Jiajun, Puig, Xavier, and Liu, C. Karen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Synthesizing semantic-aware, long-horizon, human-object interaction is critical to simulate realistic human behaviors. In this work, we address the challenging problem of generating synchronized object motion and human motion guided by language descriptions in 3D scenes. We propose Controllable Human-Object Interaction Synthesis (CHOIS), an approach that generates object motion and human motion simultaneously using a conditional diffusion model given a language description, initial object and human states, and sparse object waypoints. Here, language descriptions inform style and intent, and waypoints, which can be effectively extracted from high-level planning, ground the motion in the scene. Naively applying a diffusion model fails to predict object motion aligned with the input waypoints; it also cannot ensure the realism of interactions that require precise hand-object and human-floor contact. To overcome these problems, we introduce an object geometry loss as additional supervision to improve the matching between generated object motion and input object waypoints; we also design guidance terms to enforce contact constraints during the sampling process of the trained diffusion model. We demonstrate that our learned interaction module can synthesize realistic human-object interactions, adhering to provided textual descriptions and sparse waypoint conditions. Additionally, our module seamlessly integrates with a path planning module, enabling the generation of long-term interactions in 3D environments., Comment: ECCV 2024, project webpage: https://lijiaman.github.io/projects/chois/

Published
2023

3. Habitat 3.0: A Co-Habitat for Humans, Avatars and Robots

Author

Puig, Xavier, Undersander, Eric, Szot, Andrew, Cote, Mikael Dallaire, Yang, Tsung-Yen, Partsey, Ruslan, Desai, Ruta, Clegg, Alexander William, Hlavac, Michal, Min, So Yeon, Vondruš, Vladimír, Gervet, Theophile, Berges, Vincent-Pierre, Turner, John M., Maksymets, Oleksandr, Kira, Zsolt, Kalakrishnan, Mrinal, Malik, Jitendra, Chaplot, Devendra Singh, Jain, Unnat, Batra, Dhruv, Rai, Akshara, and Mottaghi, Roozbeh

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Multiagent Systems, Computer Science - Robotics
Abstract

We present Habitat 3.0: a simulation platform for studying collaborative human-robot tasks in home environments. Habitat 3.0 offers contributions across three dimensions: (1) Accurate humanoid simulation: addressing challenges in modeling complex deformable bodies and diversity in appearance and motion, all while ensuring high simulation speed. (2) Human-in-the-loop infrastructure: enabling real human interaction with simulated robots via mouse/keyboard or a VR interface, facilitating evaluation of robot policies with human input. (3) Collaborative tasks: studying two collaborative tasks, Social Navigation and Social Rearrangement. Social Navigation investigates a robot's ability to locate and follow humanoid avatars in unseen environments, whereas Social Rearrangement addresses collaboration between a humanoid and robot while rearranging a scene. These contributions allow us to study end-to-end learned and heuristic baselines for human-robot collaboration in-depth, as well as evaluate them with humans in the loop. Our experiments demonstrate that learned robot policies lead to efficient task completion when collaborating with unseen humanoid agents and human partners that might exhibit behaviors that the robot has not seen before. Additionally, we observe emergent behaviors during collaborative task execution, such as the robot yielding space when obstructing a humanoid agent, thereby allowing the effective completion of the task by the humanoid agent. Furthermore, our experiments using the human-in-the-loop tool demonstrate that our automated evaluation with humanoids can provide an indication of the relative ordering of different policies when evaluated with real human collaborators. Habitat 3.0 unlocks interesting new features in simulators for Embodied AI, and we hope it paves the way for a new frontier of embodied human-AI interaction capabilities., Comment: Project page: http://aihabitat.org/habitat3

Published
2023

4. HomeRobot: Open-Vocabulary Mobile Manipulation

Author

Yenamandra, Sriram, Ramachandran, Arun, Yadav, Karmesh, Wang, Austin, Khanna, Mukul, Gervet, Theophile, Yang, Tsung-Yen, Jain, Vidhi, Clegg, Alexander William, Turner, John, Kira, Zsolt, Savva, Manolis, Chang, Angel, Chaplot, Devendra Singh, Batra, Dhruv, Mottaghi, Roozbeh, Bisk, Yonatan, and Paxton, Chris

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

HomeRobot (noun): An affordable compliant robot that navigates homes and manipulates a wide range of objects in order to complete everyday tasks. Open-Vocabulary Mobile Manipulation (OVMM) is the problem of picking any object in any unseen environment, and placing it in a commanded location. This is a foundational challenge for robots to be useful assistants in human environments, because it involves tackling sub-problems from across robotics: perception, language understanding, navigation, and manipulation are all essential to OVMM. In addition, integration of the solutions to these sub-problems poses its own substantial challenges. To drive research in this area, we introduce the HomeRobot OVMM benchmark, where an agent navigates household environments to grasp novel objects and place them on target receptacles. HomeRobot has two components: a simulation component, which uses a large and diverse curated object set in new, high-quality multi-room home environments; and a real-world component, providing a software stack for the low-cost Hello Robot Stretch to encourage replication of real-world experiments across labs. We implement both reinforcement learning and heuristic (model-based) baselines and show evidence of sim-to-real transfer. Our baselines achieve a 20% success rate in the real world; our experiments identify ways future research work improve performance. See videos on our website: https://ovmm.github.io/., Comment: 37 pages, 22 figures, 8 tables

Published
2023

5. Habitat Synthetic Scenes Dataset (HSSD-200): An Analysis of 3D Scene Scale and Realism Tradeoffs for ObjectGoal Navigation

Author

Khanna, Mukul, Mao, Yongsen, Jiang, Hanxiao, Haresh, Sanjay, Shacklett, Brennan, Batra, Dhruv, Clegg, Alexander, Undersander, Eric, Chang, Angel X., and Savva, Manolis

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We contribute the Habitat Synthetic Scene Dataset, a dataset of 211 high-quality 3D scenes, and use it to test navigation agent generalization to realistic 3D environments. Our dataset represents real interiors and contains a diverse set of 18,656 models of real-world objects. We investigate the impact of synthetic 3D scene dataset scale and realism on the task of training embodied agents to find and navigate to objects (ObjectGoal navigation). By comparing to synthetic 3D scene datasets from prior work, we find that scale helps in generalization, but the benefits quickly saturate, making visual fidelity and correlation to real-world scenes more important. Our experiments show that agents trained on our smaller-scale dataset can match or outperform agents trained on much larger datasets. Surprisingly, we observe that agents trained on just 122 scenes from our dataset outperform agents trained on 10,000 scenes from the ProcTHOR-10K dataset in terms of zero-shot generalization in real-world scanned environments.

Published
2023

6. ACE: Adversarial Correspondence Embedding for Cross Morphology Motion Retargeting from Human to Nonhuman Characters

Author

Li, Tianyu, Won, Jungdam, Clegg, Alexander, Kim, Jeonghwan, Rai, Akshara, and Ha, Sehoon

Subjects
Computer Science - Robotics, Computer Science - Graphics
Abstract

Motion retargeting is a promising approach for generating natural and compelling animations for nonhuman characters. However, it is challenging to translate human movements into semantically equivalent motions for target characters with different morphologies due to the ambiguous nature of the problem. This work presents a novel learning-based motion retargeting framework, Adversarial Correspondence Embedding (ACE), to retarget human motions onto target characters with different body dimensions and structures. Our framework is designed to produce natural and feasible robot motions by leveraging generative-adversarial networks (GANs) while preserving high-level motion semantics by introducing an additional feature loss. In addition, we pretrain a robot motion prior that can be controlled in a latent embedding space and seek to establish a compact correspondence. We demonstrate that the proposed framework can produce retargeted motions for three different characters -- a quadrupedal robot with a manipulator, a crab character, and a wheeled manipulator. We further validate the design choices of our framework by conducting baseline comparisons and a user study. We also showcase sim-to-real transfer of the retargeted motions by transferring them to a real Spot robot.

Published
2023

7. CIRCLE: Capture In Rich Contextual Environments

Author

Araujo, Joao Pedro, Li, Jiaman, Vetrivel, Karthik, Agarwal, Rishi, Gopinath, Deepak, Wu, Jiajun, Clegg, Alexander, and Liu, C. Karen

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

Synthesizing 3D human motion in a contextual, ecological environment is important for simulating realistic activities people perform in the real world. However, conventional optics-based motion capture systems are not suited for simultaneously capturing human movements and complex scenes. The lack of rich contextual 3D human motion datasets presents a roadblock to creating high-quality generative human motion models. We propose a novel motion acquisition system in which the actor perceives and operates in a highly contextual virtual world while being motion captured in the real world. Our system enables rapid collection of high-quality human motion in highly diverse scenes, without the concern of occlusion or the need for physical scene construction in the real world. We present CIRCLE, a dataset containing 10 hours of full-body reaching motion from 5 subjects across nine scenes, paired with ego-centric information of the environment represented in various forms, such as RGBD videos. We use this dataset to train a model that generates human motion conditioned on scene information. Leveraging our dataset, the model learns to use ego-centric scene information to achieve nontrivial reaching tasks in the context of complex 3D scenes. To download the data please visit https://stanford-tml.github.io/circle_dataset/.

Published
2023

8. Learning to Transfer In-Hand Manipulations Using a Greedy Shape Curriculum

Author

Zhang, Yunbo, Clegg, Alexander, Ha, Sehoon, Turk, Greg, and Ye, Yuting

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Robotics
Abstract

In-hand object manipulation is challenging to simulate due to complex contact dynamics, non-repetitive finger gaits, and the need to indirectly control unactuated objects. Further adapting a successful manipulation skill to new objects with different shapes and physical properties is a similarly challenging problem. In this work, we show that natural and robust in-hand manipulation of simple objects in a dynamic simulation can be learned from a high quality motion capture example via deep reinforcement learning with careful designs of the imitation learning problem. We apply our approach on both single-handed and two-handed dexterous manipulations of diverse object shapes and motions. We then demonstrate further adaptation of the example motion to a more complex shape through curriculum learning on intermediate shapes morphed between the source and target object. While a naive curriculum of progressive morphs often falls short, we propose a simple greedy curriculum search algorithm that can successfully apply to a range of objects such as a teapot, bunny, bottle, train, and elephant., Comment: Published as a conference paper at EuroGraphics 2023

Published
2023

9. Habitat-Matterport 3D Semantics Dataset

Author

Yadav, Karmesh, Ramrakhya, Ram, Ramakrishnan, Santhosh Kumar, Gervet, Theo, Turner, John, Gokaslan, Aaron, Maestre, Noah, Chang, Angel Xuan, Batra, Dhruv, Savva, Manolis, Clegg, Alexander William, and Chaplot, Devendra Singh

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present the Habitat-Matterport 3D Semantics (HM3DSEM) dataset. HM3DSEM is the largest dataset of 3D real-world spaces with densely annotated semantics that is currently available to the academic community. It consists of 142,646 object instance annotations across 216 3D spaces and 3,100 rooms within those spaces. The scale, quality, and diversity of object annotations far exceed those of prior datasets. A key difference setting apart HM3DSEM from other datasets is the use of texture information to annotate pixel-accurate object boundaries. We demonstrate the effectiveness of HM3DSEM dataset for the Object Goal Navigation task using different methods. Policies trained using HM3DSEM perform outperform those trained on prior datasets. Introduction of HM3DSEM in the Habitat ObjectNav Challenge lead to an increase in participation from 400 submissions in 2021 to 1022 submissions in 2022., Comment: 15 Pages, 11 Figures, 6 Tables

Published
2022

10. SoundSpaces 2.0: A Simulation Platform for Visual-Acoustic Learning

Author

Chen, Changan, Schissler, Carl, Garg, Sanchit, Kobernik, Philip, Clegg, Alexander, Calamia, Paul, Batra, Dhruv, Robinson, Philip W, and Grauman, Kristen

Subjects
Computer Science - Sound, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Multimedia, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

We introduce SoundSpaces 2.0, a platform for on-the-fly geometry-based audio rendering for 3D environments. Given a 3D mesh of a real-world environment, SoundSpaces can generate highly realistic acoustics for arbitrary sounds captured from arbitrary microphone locations. Together with existing 3D visual assets, it supports an array of audio-visual research tasks, such as audio-visual navigation, mapping, source localization and separation, and acoustic matching. Compared to existing resources, SoundSpaces 2.0 has the advantages of allowing continuous spatial sampling, generalization to novel environments, and configurable microphone and material properties. To our knowledge, this is the first geometry-based acoustic simulation that offers high fidelity and realism while also being fast enough to use for embodied learning. We showcase the simulator's properties and benchmark its performance against real-world audio measurements. In addition, we demonstrate two downstream tasks -- embodied navigation and far-field automatic speech recognition -- and highlight sim2real performance for the latter. SoundSpaces 2.0 is publicly available to facilitate wider research for perceptual systems that can both see and hear., Comment: Camera-ready version. Website: https://soundspaces.org. Project page: https://vision.cs.utexas.edu/projects/soundspaces2

Published
2022

11. iSDF: Real-Time Neural Signed Distance Fields for Robot Perception

Author

Ortiz, Joseph, Clegg, Alexander, Dong, Jing, Sucar, Edgar, Novotny, David, Zollhoefer, Michael, and Mukadam, Mustafa

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

We present iSDF, a continual learning system for real-time signed distance field (SDF) reconstruction. Given a stream of posed depth images from a moving camera, it trains a randomly initialised neural network to map input 3D coordinate to approximate signed distance. The model is self-supervised by minimising a loss that bounds the predicted signed distance using the distance to the closest sampled point in a batch of query points that are actively sampled. In contrast to prior work based on voxel grids, our neural method is able to provide adaptive levels of detail with plausible filling in of partially observed regions and denoising of observations, all while having a more compact representation. In evaluations against alternative methods on real and synthetic datasets of indoor environments, we find that iSDF produces more accurate reconstructions, and better approximations of collision costs and gradients useful for downstream planners in domains from navigation to manipulation. Code and video results can be found at our project page: https://joeaortiz.github.io/iSDF/ ., Comment: Published in Robotics: Science and Systems (RSS) 2022. Project page: https://joeaortiz.github.io/iSDF/

Published
2022

12. Sim2Real Predictivity: Does Evaluation in Simulation Predict Real-World Performance?

Author

Kadian, Abhishek, Truong, Joanne, Gokaslan, Aaron, Clegg, Alexander, Wijmans, Erik, Lee, Stefan, Savva, Manolis, Chernova, Sonia, and Batra, Dhruv

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

Does progress in simulation translate to progress on robots? If one method outperforms another in simulation, how likely is that trend to hold in reality on a robot? We examine this question for embodied PointGoal navigation, developing engineering tools and a research paradigm for evaluating a simulator by its sim2real predictivity. First, we develop Habitat-PyRobot Bridge (HaPy), a library for seamless execution of identical code on simulated agents and robots, transferring simulation-trained agents to a LoCoBot platform with a one-line code change. Second, we investigate the sim2real predictivity of Habitat-Sim for PointGoal navigation. We 3D-scan a physical lab space to create a virtualized replica, and run parallel tests of 9 different models in reality and simulation. We present a new metric called Sim-vs-Real Correlation Coefficient (SRCC) to quantify predictivity. We find that SRCC for Habitat as used for the CVPR19 challenge is low (0.18 for the success metric), suggesting that performance differences in this simulator-based challenge do not persist after physical deployment. This gap is largely due to AI agents learning to exploit simulator imperfections, abusing collision dynamics to 'slide' along walls, leading to shortcuts through otherwise non-navigable space. Naturally, such exploits do not work in the real world. Our experiments show that it is possible to tune simulation parameters to improve sim2real predictivity (e.g. improving $SRCC_{Succ}$ from 0.18 to 0.844), increasing confidence that in-simulation comparisons will translate to deployed systems in reality.

Published
2019
Full Text
View/download PDF

13. Learning to Collaborate from Simulation for Robot-Assisted Dressing

Author

Clegg, Alexander, Erickson, Zackory, Grady, Patrick, Turk, Greg, Kemp, Charles C., and Liu, C. Karen

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

We investigated the application of haptic feedback control and deep reinforcement learning (DRL) to robot-assisted dressing. Our method uses DRL to simultaneously train human and robot control policies as separate neural networks using physics simulations. In addition, we modeled variations in human impairments relevant to dressing, including unilateral muscle weakness, involuntary arm motion, and limited range of motion. Our approach resulted in control policies that successfully collaborate in a variety of simulated dressing tasks involving a hospital gown and a T-shirt. In addition, our approach resulted in policies trained in simulation that enabled a real PR2 robot to dress the arm of a humanoid robot with a hospital gown. We found that training policies for specific impairments dramatically improved performance; that controller execution speed could be scaled after training to reduce the robot's speed without steep reductions in performance; that curriculum learning could be used to lower applied forces; and that multi-modal sensing, including a simulated capacitive sensor, improved performance., Comment: 8 pages, 8 figures, 3 tables; simulation to reality experiment added to evaluation; authors added; modified: title, abstract, conclusion, references; figure added

Published
2019

14. Learning Human Behaviors for Robot-Assisted Dressing

Author

Clegg, Alexander, Yu, Wenhao, Tan, Jie, Kemp, Charlie C., Turk, Greg, and Liu, C. Karen

Subjects
Computer Science - Robotics
Abstract

We investigate robotic assistants for dressing that can anticipate the motion of the person who is being helped. To this end, we use reinforcement learning to create models of human behavior during assistance with dressing. To explore this kind of interaction, we assume that the robot presents an open sleeve of a hospital gown to a person, and that the person moves their arm into the sleeve. The controller that models the person's behavior is given the position of the end of the sleeve and information about contact between the person's hand and the fabric of the gown. We simulate this system with a human torso model that has realistic joint ranges, a simple robot gripper, and a physics-based cloth model for the gown. Through reinforcement learning (specifically the TRPO algorithm) the system creates a model of human behavior that is capable of placing the arm into the sleeve. We aim to model what humans are capable of doing, rather than what they typically do. We demonstrate successfully trained human behaviors for three robot-assisted dressing strategies: 1) the robot gripper holds the sleeve motionless, 2) the gripper moves the sleeve linearly towards the person from the front, and 3) the gripper moves the sleeve linearly from the side., Comment: 8 pages, 9 figures

Published
2017

15. Learning to Navigate Cloth using Haptics

Author

Clegg, Alexander, Yu, Wenhao, Erickson, Zackory, Tan, Jie, Liu, C. Karen, and Turk, Greg

Subjects
Computer Science - Robotics
Abstract

We present a controller that allows an arm-like manipulator to navigate deformable cloth garments in simulation through the use of haptic information. The main challenge of such a controller is to avoid getting tangled in, tearing or punching through the deforming cloth. Our controller aggregates force information from a number of haptic-sensing spheres all along the manipulator for guidance. Based on haptic forces, each individual sphere updates its target location, and the conflicts that arise between this set of desired positions is resolved by solving an inverse kinematic problem with constraints. Reinforcement learning is used to train the controller for a single haptic-sensing sphere, where a training run is terminated (and thus penalized) when large forces are detected due to contact between the sphere and a simplified model of the cloth. In simulation, we demonstrate successful navigation of a robotic arm through a variety of garments, including an isolated sleeve, a jacket, a shirt, and shorts. Our controller out-performs two baseline controllers: one without haptics and another that was trained based on large forces between the sphere and cloth, but without early termination., Comment: Supplementary video available at https://youtu.be/iHqwZPKVd4A. Related publications http://www.cc.gatech.edu/~karenliu/Robotic_dressing.html

Published
2017

18. CIRCLE: Capture In Rich Contextual Environments

Author

Araújo, João Pedro, primary, Li, Jiaman, additional, Vetrivel, Karthik, additional, Agarwal, Rishi, additional, Wu, Jiajun, additional, Gopinath, Deepak, additional, Clegg, Alexander, additional, and Liu, C. Karen, additional

Published
2023
Full Text
View/download PDF

19. Habitat-Matterport 3D Semantics Dataset

Author

Yadav, Karmesh, primary, Ramrakhya, Ram, additional, Ramakrishnan, Santhosh Kumar, additional, Gervet, Theo, additional, Turner, John, additional, Gokaslan, Aaron, additional, Maestre, Noah, additional, Chang, Angel Xuan, additional, Batra, Dhruv, additional, Savva, Manolis, additional, Clegg, Alexander William, additional, and Chaplot, Devendra Singh, additional

Published
2023
Full Text
View/download PDF

25. Learning to dress

Author

Clegg, Alexander, primary, Yu, Wenhao, additional, Tan, Jie, additional, Liu, C. Karen, additional, and Turk, Greg, additional

Published
2018
Full Text
View/download PDF

29. Religion in the Media: A Study of Student Perception of Media Bias in Georgia

Author

Clegg, Alexander

Subjects
English Language and Literature
Abstract

Georgia is fighting to make the step from developing to developed and the influence of the Georgian Orthodox Church has been an identified barricade for European Union leadership to accept Georgia into the supranational organization. This research investigates the relationship between religiosity and the perception of media bias among college students in Tbilisi, Georgia. It was hypothesized that the relationship between religiosity and perception of media bias will be negative, as measured by survey administered to the students. This paper proves the more religious a student is, the less likely he or she will recognize a media bias towards the Georgian Orthodox Church. Similarly, students who are more religious use and trust domestic news sources than those who are less religious. The implications are that religiosity plays a role in how students are viewing the news and that religious affiliation can alter how someone critically analyzes the information put forth.

Published
2017

Catalog

Books, media, physical & digital resources
See catalog results