Evidence-based frameworks have helped to transform decisions in medicine, education, agriculture, and international development. Conservation has lagged other fields in embracing the data-driven revolution, largely because of the difficulty and expense of collecting ecological data over large areas and long time-scales. The decline of forest cover, species loss, and impacts of climate change make it imperative that we develop better tools to measure ecological change and conservation outcomes. Passive acoustic sensors that expand survey effort and machine learning techniques that automate data-processing, are one approach for collecting robust and cost-effective ecological metrics at the required scale. We present data from three case studi...
In this work, we consider applying machine learning to the analysis and compression of audio signals...
Soundscape ecology is a promising area that studies landscape patterns based on their acoustic compo...
1. The cost, usability and power efficiency of available wildlife monitoring equipment currently inh...
Evidence-based frameworks have helped to transform decisions in medicine, education, agriculture, an...
Natural habitats are being impacted by human pressures at an alarming rate. Monitoring these ecosyst...
Acoustic monitoring tools are often constrained to small-scale, short-term studies due to high energ...
Conservation researchers require low-cost access to acoustic monitoring technology. However, afford...
Long-term monitoring is needed to understand the statuses and trends of wildlife communities in mont...
Natural habitats are being impacted by human pressures at an alarming rate. Monitoring these ecosyst...
Extracting species calls from passive acoustic recordings is a common preliminary step to ecological...
Passive acoustic monitoring (PAM) is a tool with immense potential to evaluate the response of wildl...
In recent years, the application of machine learning and remote sensing technologies in wildlife con...
The effective analysis of Passive Acoustic Monitoring (PAM) data has the potential to determine spat...
1. The cost, usability and power efficiency of available wildlife monitoring equipment currently inh...
Passive acoustic recording has great potential for monitoring soniferous endangered and cryptic spec...
In this work, we consider applying machine learning to the analysis and compression of audio signals...
Soundscape ecology is a promising area that studies landscape patterns based on their acoustic compo...
1. The cost, usability and power efficiency of available wildlife monitoring equipment currently inh...
Evidence-based frameworks have helped to transform decisions in medicine, education, agriculture, an...
Natural habitats are being impacted by human pressures at an alarming rate. Monitoring these ecosyst...
Acoustic monitoring tools are often constrained to small-scale, short-term studies due to high energ...
Conservation researchers require low-cost access to acoustic monitoring technology. However, afford...
Long-term monitoring is needed to understand the statuses and trends of wildlife communities in mont...
Natural habitats are being impacted by human pressures at an alarming rate. Monitoring these ecosyst...
Extracting species calls from passive acoustic recordings is a common preliminary step to ecological...
Passive acoustic monitoring (PAM) is a tool with immense potential to evaluate the response of wildl...
In recent years, the application of machine learning and remote sensing technologies in wildlife con...
The effective analysis of Passive Acoustic Monitoring (PAM) data has the potential to determine spat...
1. The cost, usability and power efficiency of available wildlife monitoring equipment currently inh...
Passive acoustic recording has great potential for monitoring soniferous endangered and cryptic spec...
In this work, we consider applying machine learning to the analysis and compression of audio signals...
Soundscape ecology is a promising area that studies landscape patterns based on their acoustic compo...
1. The cost, usability and power efficiency of available wildlife monitoring equipment currently inh...