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University of Illinois at Urbana-Champaign
4.0
based on 3 Reviews
About University of Illinois at Urbana-Champaign
Founded in1970 (55 yrs old)
India Employee Count--
Global Employee Count501-1k
HeadquartersChampaign, United States
Office Locations
--
Websiteuiuc.edu
Primary Industry
Other Industries
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University of Illinois at Urbana-Champaign Ratings
based on 3 reviews
Overall Rating
4.0/5
How AmbitionBox ratings work?
5
0
4
3
3
0
2
0
1
0
Category Ratings
4.3
Work-life balance
4.2
Skill development
3.9
Company culture
3.9
Work satisfaction
3.7
Job security
2.3
Promotions
2.0
Salary
University of Illinois at Urbana-Champaign is rated 4.0 out of 5 stars on AmbitionBox, based on 3 company reviews. This rating reflects a generally positive employee experience, indicating satisfaction with the company’s work culture, benefits, and career growth opportunities. AmbitionBox gathers authentic employee reviews and ratings, making it a trusted platform for job seekers and employees in India.
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University of Illinois at Urbana-Champaign Reviews
Compare University of Illinois at Urbana-Champaign with Similar Companies
Change Company | Change Company | Change Company | ||
|---|---|---|---|---|
Overall Rating | 4.0/5 based on 3 reviews | 3.6/5 based on 1.2k reviews | 3.4/5 based on 3.3k reviews | 3.9/5 based on 1.5k reviews |
Highly Rated for | Work-life balance Skill development Company culture | Job security | No highly rated category | Skill development Work-life balance Salary |
Critically Rated for | Salary Promotions | Promotions Skill development Salary | Work-life balance Promotions Job security | No critically rated category |
Primary Work Policy | - | Work from office 98% employees reported | Work from office 87% employees reported | Work from office 96% employees reported |
Rating by Women Employees | - no rating available | 3.4 Average rated by 423 women | 3.5 Good rated by 923 women | 3.9 Good rated by 772 women |
Rating by Men Employees | - no rating available | 3.7 Good rated by 650 men | 3.4 Average rated by 2.2k men | 3.9 Good rated by 574 men |
Job security | 3.7 Good | 3.8 Good | 3.1 Average | 3.7 Good |
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University of Illinois at Urbana-Champaign Salaries
University of Illinois at Urbana-Champaign salaries have received with an average score of 2.0 out of 5 by 3 employees.
Teaching Assistant
(2 salaries)
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₹4.7 L/yr - ₹6 L/yr
Research Assistant
(2 salaries)
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₹15.8 L/yr - ₹20.1 L/yr
Graduate Research Assistant
(2 salaries)
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₹14.9 L/yr - ₹19 L/yr
Postdoctoral Research Associate
(2 salaries)
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₹2.7 L/yr - ₹3.5 L/yr
Research Technician
(2 salaries)
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₹36 L/yr - ₹46 L/yr
Data Scientist
(1 salaries)
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₹96 L/yr - ₹1.1 Cr/yr
Assistant Professor
(1 salaries)
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₹16.2 L/yr - ₹20.7 L/yr
Program Manager
(1 salaries)
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₹13.5 L/yr - ₹17.2 L/yr
Software Engineer
(1 salaries)
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₹9.9 L/yr - ₹12.7 L/yr
Research Analyst
(1 salaries)
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₹21.6 L/yr - ₹27.6 L/yr
University of Illinois at Urbana-Champaign News
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ChatGPT Earns High Marks for Food Analysis Expertise
- Artificial intelligence (AI) is making waves in sensory evaluation, particularly in food science, as demonstrated in a study on brownies by the University of Illinois.
- The study aimed to streamline sensory evaluation processes that are traditionally resource-intensive and time-consuming by leveraging AI, specifically ChatGPT.
- ChatGPT was utilized to predict sensory attributes of fifteen brownie recipes, showcasing positive evaluations despite unconventional ingredients.
- The study highlighted ChatGPT's bias towards positive evaluations due to training on optimistic language datasets, pointing to the need for bias correction in AI models.
- AI like ChatGPT could serve as a valuable screening tool in food product development, optimizing resource allocation and enhancing innovation cycles.
- While AI shows promise in assisting with initial product quality assessments, efforts are needed to refine AI's perceptual accuracy to align with human sensory experiences.
- The study suggests a future where AI, through improved descriptive vocabulary training, becomes an integral part of sensory evaluation in food product development.
- This research hints at broader implications for AI integration in food science, potentially leading to more diverse and innovative food product lines.
- While AI may not replace human testers in sensory evaluation yet, the study underscores AI's potential in enhancing product development and innovation within the food industry.
- The findings open avenues for further research to refine AI systems and establish their calibration for more sophisticated applications in sensory evaluation.
Bioengineer | 29 Mar, 2025
Beyond RAG: SEARCH-R1 integrates search engines directly into reasoning models
- The ability of Large Language Models (LLMs) to incorporate external data in reasoning has been limited.
- SEARCH-R1, introduced by researchers from University of Illinois at Urbana-Champaign and University of Massachusetts Amherst, integrates search engines into LLMs for reasoning.
- SEARCH-R1 allows LLMs to generate search queries and use search engine results seamlessly during reasoning tasks.
- By incorporating up-to-date data from search engines, SEARCH-R1 enhances LLMs' reasoning capabilities with external knowledge.
- RAG and prompting-based tool use have limitations for integrating search engines with LLMs in reasoning models.
- SEARCH-R1 enables LLMs to interact with search engines within the reasoning process, improving multi-turn, multi-query retrieval.
- The researchers applied pure reinforcement learning in training SEARCH-R1 to streamline the model's integration of reasoning and search tools.
- SEARCH-R1 outperforms baseline methods, showcasing the effectiveness of incorporating search retrieval in LLM reasoning tasks.
- The code for SEARCH-R1 has been made available on GitHub, demonstrating its applicability in different model families for enhanced decision-making.
- SEARCH-R1's autonomous generation of search queries and real-time data integration can benefit enterprise applications like customer support and data analysis.
VentureBeat | 19 Mar, 2025
HippoRAG 2: Advancing Long-Term Memory and Contextual Retrieval in Large Language Models
- HippoRAG 2 is a neurobiologically inspired long-term memory framework for LLMs, enhancing the original HippoRAG by improving context integration and retrieval.
- HippoRAG 2, developed by researchers from The Ohio State University and the University of Illinois Urbana-Champaign, improves factual recall, sense-making, and associative memory in large language models.
- HippoRAG 2 achieves a 7% improvement in associative memory tasks over leading embedding models while maintaining strong factual and contextual understanding.
- HippoRAG 2 significantly advances non-parametric continual learning, bringing AI systems closer to human-like long-term memory capabilities.
Marktechpost | 4 Mar, 2025
Scientists Innovate Advanced Technique for Monitoring Antibiotic Resistance in Wastewater
- Researchers from the Carl R. Woese Institute for Genomic Biology have developed a CRISPR-enriched metagenomics approach to enhance the detection of antibiotic resistance genes (ARGs) in wastewater, addressing the global health challenge of antibiotic resistance.
- The study aims to improve surveillance methods for tracking the emergence and spread of over 5,000 distinct ARGs found in various ecosystems, including hospitals, agricultural runoffs, and sewage systems.
- By incorporating the CRISPR-Cas9 system, the researchers achieved a significant improvement in the efficiency of detecting ARGs, resulting in the identification of 1,189 additional ARGs in wastewater samples.
- This innovative method enriched the detection limit of ARGs from 10^-4 to 10^-5, showcasing its potential for revolutionizing public health strategies and interventions in combating antibiotic resistance.
- The research team, led by graduate student Yuqing Mao and Professor Helen Nguyen, plans to further develop their CRISPR-enriched metagenomic method for broader environmental applications, supported by funding from various organizations.
- The integration of advanced techniques like CRISPR technology is crucial in staying ahead of the antibiotic resistance crisis and preparing for future health implications associated with resistant bacterial strains.
- Through collaborative efforts and innovative research approaches, the global response to antibiotic resistance can become more proactive and informed, contributing to a safer environment for all.
- The research into CRISPR-enriched metagenomics method signifies a significant advancement in monitoring antibiotic resistance genes, emphasizing the importance of swift and efficient detection methods in combating this pressing issue.
- This study not only offers a blueprint for future research but also highlights the potential benefits of integrating cutting-edge genetic engineering techniques into environmental monitoring frameworks for public health protection.
- By leveraging advanced methodologies such as CRISPR-enriched metagenomics, researchers are bridging the gap between discovery and application, contributing to a proactive approach in the battle against antibiotic resistance.
- The groundbreaking work at the University of Illinois underscores the importance of continuous innovation and collaboration in addressing the challenges posed by antibiotic resistance, signaling a new era in the fight against resistant bacterial strains.
Bioengineer | 4 Mar, 2025
Illinois Researchers Unveil Advanced Organic Nanozymes and Innovative Point-of-Use System for Agricultural and Food Applications
- University of Illinois Urbana-Champaign researchers have developed advanced organic nanozymes that mimic enzyme catalytic properties, offering non-toxic, sustainable, and cost-effective alternatives for agricultural and food applications.
- These organic nanozymes overcome the limitations of traditional inorganic nanozymes by utilizing essential amino acid L-alanine and polyethylene glycol to enhance structural integrity and catalytic activities.
- The nanozymes, reduced to less than 100 nanometers in size, have showcased potential for real-world use, particularly in agricultural practices and food safety protocols.
- Integration with a colorimetric sensing platform has enabled the detection of histamine in food products, addressing health risks associated with high histamine levels in vegetables like spinach and eggplant.
- The innovative sensing platform, designed for point-of-use applications, simplifies the detection of substances like glyphosate, while smartphone technology enhances user experience in rapid molecule detection.
- This advancement marks a significant shift towards sustainable agricultural practices and eco-friendly food production methods, emphasizing the global focus on environmental health and food security.
- The research at the University of Illinois demonstrates a proactive approach to enhancing food safety and agricultural efficiency through the development of organic nanozymes and integrated sensing technologies.
- The intersection of durable, biodegradable materials with innovative sensing platforms signifies a commitment to effective solutions with minimal ecological impact, paving the way for transformative applications in various fields.
- These breakthroughs not only offer alternatives to conventional methods but also present a model for future research initiatives, shaping the trajectory of food safety and agricultural practices.
- The potential widespread adoption of organic nanozymes could revolutionize the landscape of food safety and agriculture, culminating in sustainable and efficient practices for future generations.
- Continued innovation in organic nanozymes and sensing technologies promises further advancements crucial for ensuring accessible, efficient, and sustainable food safety measures in the future.
Bioengineer | 1 Mar, 2025
DARPA Wants to Build Structures in Orbit, Without Needing a Launch from Earth
- DARPA is partnering with universities to develop 3D printing technology and in-orbit assembly of satellite components.
- DARPA's NOM4D program aims to send lightweight materials to space for on-site construction, enabling the building of larger and more mass-efficient structures in orbit.
- Partnerships with Caltech and the University of Illinois Urbana-Champaign are progressing to in-space testing of the assembly process for smaller satellites.
- DARPA is exploring the possibility of growing large biological structures in space to enable new construction possibilities.
Universe Today | 28 Feb, 2025
DARPA begins testing phase for in-orbit space construction
- DARPA's NOM4D program has transitioned to small-scale orbital demonstrations to evaluate materials and assembly techniques for large-scale orbital structures.
- Caltech and Momentus will demonstrate autonomous robotic assembly technology to construct a circular truss in space.
- The University of Illinois Urbana-Champaign will showcase a high-precision in-space composite-forming process on the International Space Station.
- The success of these demonstrations could lead to the construction of large-scale space infrastructure and an in-space manufacturing ecosystem.
TechSpot | 14 Feb, 2025
DARPA skips the lab, will head to orbit to test space manufacturing tech
- DARPA's NOM4D program is moving experiments from labs to space for testing orbital manufacturing technology.
- The decision to conduct tests in space comes after successful completion of earlier project phases in the lab.
- Caltech and University of Illinois will conduct experiments in orbit during NOM4D phase 3 in 2026.
- Caltech will work with Momentus to assemble a structure in space using a robotic system on Vigoride.
- University of Illinois will experiment with polymerizing carbon fiber tubes in the ISS' Bishop Airlock module.
- The goal is to develop methods for constructing large-scale structures in space without relying on traditional methods.
- Other potential applications of the technology include building refueling stations and solar arrays in orbit.
- Future possibilities could involve creating massive structures in space, although spacecraft fabrication is not currently part of the scope.
- The success of NOM4D phase 3 experiments will determine the next steps in scaling up technology for practical use.
- The focus is on enabling construction of complex structures in space that would be challenging to launch from Earth.
The Register | 13 Feb, 2025
This AI Paper Introduces CodeSteer: Symbolic-Augmented Language Models via Code/Text Guidance
- Large language models (LLMs) often struggle with precise computations, algorithmic tasks, and symbolic manipulations.
- Researchers from MIT, Harvard University, University of Illinois Urbana-Champaign, and MIT-IBM Watson AI Lab have introduced a framework called CodeSteer to guide LLMs in switching between text-based reasoning and symbolic computing.
- CodeSteer employs a benchmark called SymBench comprising 37 symbolic tasks to measure and refine the model's ability to handle structured problem-solving.
- CodeSteer demonstrates substantial improvements over existing LLMs, outperforming OpenAI's o1 model and DeepSeek R1 in evaluations involving unseen tasks.
Marktechpost | 12 Feb, 2025
Study Reveals Hybrid Job Training Boosts Women’s Participation in Nepal
- A recent study conducted collaboratively by the University of Illinois Urbana-Champaign and Heifer International reveals how hybrid distance learning formats can significantly enhance access to vocational training for rural women in Nepal.
- Women’s workforce participation globally lags behind men’s by approximately 25%.
- Conventional vocational training programs often require women to leave their homes for extended periods, which poses significant challenges due to domestic responsibilities and cultural expectations.
- By collaborating with Heifer International, the research team developed a hybrid training format that retained key elements of the existing curriculum but incorporated flexibility through remote learning components.
- In their evaluation, the researchers initiated a randomized controlled trial within the CAHW program, where nominees were either assigned to traditional in-person training or the new hybrid model.
- Results indicated a significant increase in completion rates—rising from 30% to 51% among those participating in the hybrid program.
- This research is a benchmark in understanding how adaptive vocational training can empower women in rural settings.
- The findings from this study serve as a compelling case for investing in hybrid learning models that prioritize flexibility and local relevance.
- As institutions and organizations continue to explore methods to engage women’s workforce participation, the findings from this study serve as a compelling case for investing in hybrid learning models that prioritize flexibility and local relevance.
- The transformative potential of such initiatives can reshape the landscape of vocational training for women worldwide, promising a future where barriers are diminished, and opportunities are amplified.
Bioengineer | 6 Feb, 2025
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University of Illinois at Urbana-Champaign FAQs
When was University of Illinois at Urbana-Champaign founded?
University of Illinois at Urbana-Champaign was founded in 1970. The company has been operating for 55 years primarily in the Education & Training sector.
Where is the University of Illinois at Urbana-Champaign headquarters located?
University of Illinois at Urbana-Champaign is headquartered in Champaign.
What are the pros and cons of working in University of Illinois at Urbana-Champaign?
Working at University of Illinois at Urbana-Champaign comes with several advantages and disadvantages. It is highly rated for work life balance, skill development and company culture. However, it is poorly rated for salary & benefits and promotions / appraisal, based on 3 employee reviews on AmbitionBox.
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