add to keynote text

ipewzner · ipewzner · commit b7786047908b · 2025-05-22T15:31:07.000+03:00
diff --git a/KeynoteSpeakersPage.js b/KeynoteSpeakersPage.js
@@ -5,7 +5,7 @@ class KeynoteSpeakersPage extends HTMLElement {
             position: "Chair in Acoustic Signal Processing\nHead of Intelligent Sensing and Communication (ISC) Research Group",
             bio: "Professor Jeff Neasham graduated in electronic engineering from Newcastle University, Newcastle upon Tyne, UK, in 1994. He worked at Newcastle University from 1994 until 2007 as a Research Associate on research and commercial product development in underwater acoustic communication, sonar imaging, and wireless sensor networks, before taking up an academic post. He is currently Chair in Acoustic Signal Processing with the School of Engineering, Newcastle University, leading the Intelligent Sensing and Communications Research Group and directing the Sensors, Electromagnetics and Acoustics Laboratory (SEALab). He has published over 150 conference and journal publications, and his work on underwater acoustic communication and positioning has been commercialised by companies in the UK and Italy. His current research interests are in underwater acoustic signal processing and device design, wireless communication networks, passive acoustic detection/localisation and biomedical instrumentation.",
             title: "Development of real-time passive acoustic detection systems for marine mammals",
-            abstract: "TO BE ADDED",
+            abstract: "This talk will describe ongoing work at Newcastle University to develop cost effective, low power, real time detection systems for cetacean echolocation signals and calls using edge computing. The properties of the target acoustic signals will be discussed along with the effect of the subsea acoustic channel and how this affects detection strategies, illustrated by example recordings. Then the development of computationally light algorithms for dolphin click and whistle detection will be described along with results of testing against annotated acoustic datasets from the North Sea. Finally, the design of a low cost/power hardware implementation of these algorithms will be presented, with early sea trial results demonstrating live detection and reporting of bottlenose dolphin occurrence at a site off the Northumberland Coast, UK.",
             image: "img/Jeff Neasham 29-02-24.jpg"
         },
         {

Original file line number	Diff line number	Diff line change
`@@ -5,7 +5,7 @@ class KeynoteSpeakersPage extends HTMLElement {`
`5`	`5`	`position: "Chair in Acoustic Signal Processing\nHead of Intelligent Sensing and Communication (ISC) Research Group",`
`6`	`6`	bio: "Professor Jeff Neasham graduated in electronic engineering from Newcastle University, Newcastle upon Tyne, UK, in 1994. He worked at Newcastle University from 1994 until 2007 as a Research Associate on research and commercial product development in underwater acoustic communication, sonar imaging, and wireless sensor networks, before taking up an academic post. He is currently Chair in Acoustic Signal Processing with the School of Engineering, Newcastle University, leading the Intelligent Sensing and Communications Research Group and directing the Sensors, Electromagnetics and Acoustics Laboratory (SEALab). He has published over 150 conference and journal publications, and his work on underwater acoustic communication and positioning has been commercialised by companies in the UK and Italy. His current research interests are in underwater acoustic signal processing and device design, wireless communication networks, passive acoustic detection/localisation and biomedical instrumentation.",
`7`	`7`	`title: "Development of real-time passive acoustic detection systems for marine mammals",`
`8`		`- abstract: "TO BE ADDED",`
	`8`	+ abstract: "This talk will describe ongoing work at Newcastle University to develop cost effective, low power, real time detection systems for cetacean echolocation signals and calls using edge computing. The properties of the target acoustic signals will be discussed along with the effect of the subsea acoustic channel and how this affects detection strategies, illustrated by example recordings. Then the development of computationally light algorithms for dolphin click and whistle detection will be described along with results of testing against annotated acoustic datasets from the North Sea. Finally, the design of a low cost/power hardware implementation of these algorithms will be presented, with early sea trial results demonstrating live detection and reporting of bottlenose dolphin occurrence at a site off the Northumberland Coast, UK.",
`9`	`9`	`image: "img/Jeff Neasham 29-02-24.jpg"`
`10`	`10`	`},`
`11`	`11`	`{`