diff --git a/program-keynote.html b/program-keynote.html
index 756b6abcaf7fe26d481ea64895954037f0c7e222..557d962e9f653e026e4699ec191604632afb10f0 100644
--- a/program-keynote.html
+++ b/program-keynote.html
@@ -28,7 +28,7 @@
 
 			<h4>Keynote speaker</h4>
 			Keynote: Michael Paulitsch, Airbus/Thales<br><br>
-					<b>Mixed-Criticality Systems - a Journey "Embedded" in Time and Space</b><br>
+					<b>Mixed-Criticality Systems - a Journey "Embedded" in Time and Space</b><br><br>
 					<img style="float: right;" alt="" src="img/mp.jpg" height="200px" />Mixed-criticality embedded systems are getting more attention due to savings in cost, weight, and power, and fueled by the ever increasing performance of processers. Introduced into practice more than 2 decades ago -- e.g. in aerospace with the concept of time and space-partitioning -- optimization and different underlying hardware architectures like multicore processors continue to challenge system designers. This talk should present you a mix of different aspects of mixed-criticality system architecture and designs and underlying approaches of the past with excursions into real space, aerospace and railway systems. With the advent of multicore system-on-chip and multicore processors many of the original assumptions and solutions are challenged and sometimes invalidated and new problems emerge that require special attention. We will walk through current and future challenges and look at point solutions and discuss possible research needs. The interplay of safety, security, system design, performance optimization, scheduling aspects, and application needs and constraints combined with modern computing architectures like multicore processors provide a fertile ground for research and discussions in this field.<br><br><b>Bio:</b> Michael Paulitsch is Head of Base Systems at Thales Austria GmbH
 (part of the Thales Ground Transportation Systems) in Vienna, Austria
 since August 2014. He is also product line responsible for the TAS