
Faster, More Accurate IoT Security: A Quantitative Analysis of the CUMAD Framework
1 Jul 2025
Tested on the N-BaIoT dataset, CUMAD reduces false positives by 7x compared to autoencoders alone and detects threats faster than window-based methods.

Redefining IoT Threat Detection: The Power of Cumulative Analysis in the CUMAD Framework
1 Jul 2025
CUMAD combines an autoencoder with SPRT to accumulate evidence, slashing false alerts and rapidly detecting compromised IoT devices.

Solving the IoT's "Boy Who Cried Wolf" Problem: From Individual Alerts to Cumulative Certainty
1 Jul 2025
To fix IoT's false alert issue, this work introduces "cumulative anomaly," using autoencoders to spot deviations from normal device behavior.

How CUMAD Accumulates Evidence to Unmask Compromised IoT Devices
1 Jul 2025
CUMAD detects compromised IoT devices by accumulating evidence with an autoencoder and SPRT, slashing false alerts and enabling rapid, reliable detection.

Earth’s Aerial Biosphere Offers Insights into Venusian Microbial Survival
17 Jan 2025
Exploring Earth's aerial biosphere as a model, this study contrasts it with Venusian clouds, proposing microbial survival strategies in harsh conditions.

Microbial Life on Venus Requires a Unique Life Cycle to Overcome Extreme Conditions
17 Jan 2025
A Venusian microbial life cycle suggests spore dormancy in the lower haze layer and rehydration in clouds to adapt to extreme conditions.

Researchers Proposes a Life Cycle for Venusian Microbes
17 Jan 2025
A proposed microbial life cycle in Venus' lower atmosphere explores spore dormancy, upward transport, and survival under harsh conditions.

Life in Venusian Clouds: A Hypothesis for Microbial Survival and Life Cycle
17 Jan 2025
Exploring how desiccated microbial spores persist in Venus' atmosphere by cycling between cloud droplets and the lower haze layer.

Challenges for Life in the Venusian Clouds Include Severe Acidity, Extreme Dryness, & Limited Water
17 Jan 2025
Examining harsh conditions in Venus' clouds, this study proposes how microbial life might adapt to extreme acidity, dryness, and desiccation risks.