Love video games? Then you’ll love the show reel

The eclectic area of Computing at the University of Northampton has embedded within it the Games Programmes. Here are some details of their work.



Taken from: https://www.northampton.ac.uk/news/love-video-games-then-youll-love-our-show-reel/

Video games fans who want to learn the practical skills to produce great-looking games can find just what they’re looking for at the University of Northampton.

The Games Art degree course focuses on the visual side of the industry, offering an introduction to the creative aspects of the gaming industry and covering key points in the creative process, from storyboarding to character and environment design.

Each year the work of Games Art students is compiled for a show reel – here’s the 2017 video for your enjoyment:

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Mark Johnson - Lecturer of the Year

Congratulations Mark Johnson! Most Innovative Teaching award at #NorthamptonSTAR. Richly deserved! pic.twitter.com/FpI5GPm4Da

— John M Sinclair (@DeanofFAST) May 18, 2017

Congratulations Mark! #NorthamptonSTAR pic.twitter.com/cYEHeeiter

— NorthamptonSU (@northamptonSU) May 18, 2017

The @UniNorthants #NorthamptonSTAR Outstanding Lecturer of the Year ... is ... pic.twitter.com/L3StO1nxAW

— NorthamptonSU (@northamptonSU) May 18, 2017

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Blockchain, we have someone for that

There has been a growing interest in the idea of electronic-based cryptocurrencies such as Bitcoin and the underlying technology of Blockchain.  This Blockchain technology is based around the use of a distributed database for a growing list of records, called blocks, so a chain of blocks. The distributed nature and that the blocks are in a chain, where a change in one block early in effects ripples down the chain, improves the security from tampering and revision. The video below is, in my view, a good introduction to the idea. 


The Computing team has a teamed up with CCEG Blockchain UN Lab to look explore a number of Blockchain projects and ideas.



1. AI Wallet - Dr Suraj Ajit
An  Artificial Intelligence Wallet, based around Bot technology ideas,  that would help someone make personalised informed business decisions and transactions within the Seratio blockchain. The AI Bot inspired digital wallet would recommend products, processes, suppliers to individuals and organisations based on personal preferences.
To read more about this project go to AI Wallet.

2. Blockchain as a Solution for Connected Health Services - Dr Ali Al-Sherbaz

Blockchain solution is to strengthen cooperation between health providers and technical companies by enabling the exchange of health data to enable more efficient and adaptive health care delivery. 

To read more about this project go to Blockchain as a Solution for Connected Health Services.

3. Transparent Public Engagement – Could Blockchain help? - Dr Scott Turner

 Could Blockchain be used to increase the transparency of records of public engagement by Universities? By making the records more transparent and open impact can more easily be verified.
To read more about this idea go to Transparent Public Engagement – Could Blockchain help?

Also one of the Computing has team contributed to Blockchain Educational Passport paper on the use of Blockchain for educational use. To read more on this paper go to Blockchain Educational Passport: Decentralised Learning Ledger (DLL).




All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Computing at Northampton Video

Here James talk about his project - which was part of the larger Junkbot's project (http://junkbots.blogspot.co.uk/2015/07/see-junkbot-interface-for-primary.html)




All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Computer lecturer’s research helps improve the next generation of technology

Taken from: http://www.northampton.ac.uk/news/computer-lecturers-research-helps-improve-the-next-generation-of-technology/

A computing lecturer at the University of Northampton, who is researching into how the efficiency of our everyday devices, such as mobile phones, can be improved, has been awarded the best paper at two recent conferences.

Dr Michael Opoku Agyeman has written several journal papers focusing on how the next generation of technology can meet the ever increasing demands from consumers. He was invited to present his work at the 19th Euromicro Conference on Digital System Design in Cyprus and the Institute of Electrical and Electronics Engineers’ 14th International Conference in Paris.

Part of his research concentrates on whether several processing elements can be incorporated on a single chip, known as System-On-Chip, to improve the efficiency and speed of the computing systems that we use every day, from mobile phones to video-game consoles and even medical equipment. Usually, metal-based interconnecting wires are used for on-chip communication, but Dr Opoku Agyeman is looking into alternative fabrics, such as three dimensional integrated circuits, millimetre wave and surface wave technologies.

Dr Opoku Agyeman explains: “At the heart of each of the devices we commonly use is the processor which keeps it all running. We now expect more features from smaller devices which provide flexibility and efficiency, as well as longer battery life or some type of energy saving mode. To meet these demands, the next generation of devices will need to incorporate the System-On-Chip element and consequently the architecture and communication design techniques must be developed to improve the effectiveness of our computer systems.

“The System-On-Chip combines several components such as processors, peripherals, memory blocks and power management circuits on a single integrated circuit. One issue in particular that dominates next generation designs arises from the non-scalable wire delays and power consumption of the on-chip communication infrastructure.

“To compensate for the fast-paced technological scalability with the performance bottleneck of conventional metal-based interconnects, I have been involved in researching alternative interconnect fabrics. The highlights of my research have so far included an analytical channel model for wireless System-On-Chip design, for which I was awarded the best paper at the Institute of Electrical and Electronics Engineers’ Conference, along with my international collaborative work resulting in a technique that improves the performance of on-chip networks, which was recognised at the Euromicro Conference.

“It is a great honour to be awarded the best paper for both conferences which are highly prestigious.”

Find out more about Dr Opoku Agyeman’s research papers

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Mini Project: Bibliographic Analysis of Computing

I have been curious about tools for analysing social connections for a while.

In this post I am looking at a couple of ways to analyse bibliographic relationships. Starting with the simplest, Word Clouds but then  at an interesting tool VosViewer discussed previously. All the data is taken from the University of Northampton's Research Repository - Nectar - for members of the academic Computing team.  

Word Clouds

The image above is based on data for all the listed publications for the computing team since 2011. It includes the authors, title, conference, etc; but no abstract. It takes quite a bit of editing and really all that is being shown is the Authors name for the most published authors and a few key terms. Provides a nice snap shot but is difficult to interpret.




Co-author Analysis

Here is the same data but processed using software that is only looking at the authors and showing how many times a particular pair have published together. Some interconnections between authors can be seen.

Text Analysis

This is the same tool as above, but this time looking at the text within the title and abstracts. All words in the title and abstract of the papers; but using binary counting (so a term is only counted once per publication) and allowing only the terms with 60% highest relevance through; you can get a graph like the one below. Personally I the graph find beautiful, gives a sense of a lot going on; but is difficult to interpret.

Now repeating the same exercise but with only words that appear at least three times.

The groups are clearer. This group has some interesting subject area coming out; for example wireless networking and machine-to-machine communicaton; alongside pedagogic, cultural research and sensors for animals.

Let us apply this last approach to some individual cases

Case Study 1: Mid-Research Career Academic

Case Study 2: Mid-Research Career Academic 2

In both Case Study 1 and 2, there are several groupings. Case study 1 the subjects in the groupings are more diverse than in case study 2, which has greater specialisation.

Case Study 3: Early Career Researcher
Greater separation in the groups (though three groups are related in terms of subject) than in the first two case studies. This is in part may be due to the smaller number of papers compared to the first two case studies (between four to eight times fewer).

Case Study 4: PhD by Publication Candidate

There is a stronger inter-relationships between the groups, than has been in some of the other case studies. This, I would argue, is a positive feature for someone pursuing a PhD by publication; suggesting a coherent 'story' to their publications.




All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Social Analysis of Publications

The Computing staff's network of co-authors, at the University of Northampton, based on the University's  research repository NECTAR - http://nectar.northampton.ac.uk/view/divisions/SSTCT.html on 12th November 2016. The data goes back to 2010.

The data was analysed using the software VOSviewer - http://www.vosviewer.com/ free software for visualising networks. Differences in colours represents, the clusters of publications with those authors picked out by the software. The relative size of the circles is the relative number of publications listed; so for the two biggest circles/hubs it relates to 55 and 34 publications in this time period. Some relatively new authors, to the University but not to research, explains some of the 'islands' and the number of publications within it - it only reflects publications whilst at the University of Northampton.

To dig a little deeper, going to  look at the two biggest 'hubs' through their NECTAR records, so potentially going back before 2010.

To see the source data:
http://nectar.northampton.ac.uk/view/people/Turner=3AScott_J=3A=3A.html as of 12th of November 2016.

To see the source data: http://nectar.northampton.ac.uk/view/people/Al-Sherbaz=3AAli=3A=3A.html as of 12th of November 2016.

The line thicknesses reflect the amount of collaboration (papers) between authors. My personal views it shows a mixture of working with some key co-authors, as well as also working with wider sets of authors is a positive strategy.


All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Computing Publication 2016 - October update - 36 and counting

1. Abbas, R., Al-Sherbaz, A., Bennecer, A. and Picton, P. (2016) Development of scheduling process for the M2M communications system in smart cites. Panel Presentation presented to: School of Science and Technology Annual Research Conference, Newton Building, The University of Northampton, 02 March 2016. (Unpublished)
2. Abbas, R., Al-Sherbaz, A., Bennecer, A. and Picton, P. (2016) Scheduling process for the M2M communications system in smart cites. Seminar Presentation presented to: The University of Northampton Graduate School Postgraduate Researcher (PGR) Conference 2016, Northampton, 14 June 2016.
3. Ajit, S. and Dodds, J. (2016) Student perceptions of automated marking and feedback system in computing. Poster presented to: Higher Education Academy Annual STEM Conference 2016: Inspire to Succeed: Transforming Teaching and Learning in STEM, East Midlands Conference Centre, Nottingham, 28-29 January 2016.
4. Al Barrak, A., Al-Sherbaz, A., Kanakis, T. and Crockett, R. G. M. (2016) Utilisation of multipath phenomenon to improve the performance of BCH and RS codes. In: 8th Computer Science & Electronic Engineering Conference. New York: IEEE. (Accepted)
5. Al-Dabbagh, M., Al-Sherbaz, A. and Turner, S. J. (2016) Development [of] a real-time ITS using VANETs: a case study for Northampton Town. In: SAI Intelligent Systems Conference 2016. IEEE. (Accepted)
6. Al-Rubaye, Z. (2016) Lameness detection in sheep through behavioural sensor data analysis. Poster presented to: Graduate School 11th Annual Poster Competition, The University of Northampton, 18 May 2016. (Unpublished)
7. Al-Rubaye, Z., Al-Sherbaz, A., McCormick, W. D. and Turner, S. J. (2016) Lameness detection in sheep through the analysis of the wireless sensor data. Workshop presented to: The University of Northampton Graduate School Postgraduate Researcher (PGR) Conference 2016, Northampton, 14 June 2016.
8. Al-Rubaye, Z., Al-Sherbaz, A., McCormick, W. D. and Turner, S. J. (2016) The use of multivariable wireless sensor data to early detect lameness in sheep. Workshop presented to: School of Science and Technology Annual Research Conference, Newton Building, The University of Northampton, 02 March 2016. (Unpublished)
9. Al-Sadi, A., Al-Sherbaz, A., Turner, S. J. and Xue, J. (2016) The management of distributed software defined networks in smart cities. Workshop presented to: School of Science and Technology Annual Research Conference, Newton Building, The University of Northampton, 02 March 2016. (Unpublished)
10. Al-Sadi, A., Al-Sherbaz, A., Xue, J. and Turner, S. J. (2016) Routing algorithm optimization for Software Defined Network WAN.In: Al-Sadeq International Conference on Multidisciplinary in IT and Communication Science and Applications (AIC-MITCSA) - IRAQ (9-10) May. Baghdad, Iraq: IEEE. (Accepted)
11. Cui, M. H., Knox, D., Opoku Agyeman, M. and MacDonald, R. (2016) Role of music in clinical acupuncture: a cross cultural investigation. In: International Conference on New Music Concepts (ICNMC 2017). Milan, Italy: ABEditore. (Accepted)
12. Cui, M. H., Michael, O. A., MacDonald, R. and Knox, D. (2016) A cross-cultural exploration of music in history: language, health and art implications. In: International Conference on New Music Concepts (ICNMC 2017). Milan, Italy: ABEditore. (Accepted)
13. Cui, M. H., Opoku Agyeman, M. and Knox, D. (2016) A cross-cultural study of music in history. International Journal of Culture and History. 2(2), pp. 65-69. 2382-6177.
14. Edan, N. M., Turner, S. J., Al-Sherbaz, A. and Ajit, S. (2016) Performance evaluation of QoS using SIP & IAX2 VVoIP protocols with CODECS. In: SAI Computing Conference 2016. London: IEEE. 9781467384605. (Accepted)
15. Hendrix, M., Al-Sherbaz, A. and Victoria, B. (2016) Game based cyber security training: are serious games suitable for cyber security training? International Journal of Serious Games. 3(1), pp. 53-61. 2384-8766.
16. Hill, G. (2016) Review of a problems-first approach to first year undergraduate programming. In: Wu, B. and Kassel, S. (eds.) Software Engineering Education Going Agile: 11th China-Europe International Symposium on Software Engineering Education (CEISEE 2015). Switzerland: Springer International Publishing. 9783319291659. pp. 73-80.
17. Maghdi, H., Al-Sherbaz, A., Aljawad, N. and Lami, I. A. (2016) UNILS: Unconstrained Indoors Localization Scheme based on cooperative smartphones networking with onboard inertial, Bluetooth and GNSS devices. In: Proceedings of IEEE/ION PLANS 2016. Savannah, Georgia, USA: IEEE. 9781509020423. pp. 129-136.
18. Mu, M., Broadbent, M., Farshad, A., Hart, N., Hutchison, D., Ni, Q. and Race, N. (2016) A scalable user fairness model for adaptive video streaming over SDN-assisted future networks. IEEE Journal on Selected Areas in Communications. 0733-8716.
19. Mu, M., Simpson, S., Farshad, A., Ni, Q. and Race, N. (2016) User-level fairness delivered: network resource allocation for adaptive video streaming. In: 2015 IEEE 23rd International Symposium of Quality of Service (IWQoS). USA: IEEE/ACM. 9781467371131. pp. 85-94.
20. Mu, M., Simpson, S., Stokking, H. and Race, N. (2016) QoE-aware inter-stream synchronization in open N-screens cloud. In: 2016 13th IEEE Annual Consumer Communications & Networking Conference (CCNC). Las Vegas: IEEE. 9781467392914. pp. 907-915.
21. Niamut, O., Mu, M., Denazis, S. and Race, N. (2016) Social telemedia: the relationship between social information and networked media. IEEE Computer Magazine. 49(5), pp. 92-97. 0018-9162.
22. Oakes, J., Johnson, M., Xue, J. and Turner, S. J. (2016) Simplified deployment of virtual machines using an intelligent design engine. In: Proceedings of Science and Information (SAI) Conference 2016. London: IEEE. 9781467384605. (Accepted)
23. Olajubu, O., Ajit, S., Johnson, M., Turner, S. J., Thomson, S. and Edwards, M. (2016) A textual language for requirement modelling. Workshop presented to: School of Science and Technology Annual Research Conference, Newton Building, The University of Northampton, 02 March 2016.
24. Opoku Agyeman, M. (2016) A parameterizable channel model for Wireless Networks-on-Chip design. In: 16th Mediterranean Microwave Symposium (MMS2016). IEEE Xplore. (Accepted)
25. Opoku Agyeman, M., Tong, K. and Mak, T. (2016) An improved wireless communication fabric for performance aware network-on-chip architectures. International Journal of Computing and Digital Systems. 5(2), pp. 161-171. 2210-142X.
26. Opoku Agyeman, M., Vien, Q.-T., Ahmadinia, A., Yakovlev, A., Tong, K.-F. and Mak, T. (2016) A resilient 2-D waveguide communication fabric for hybrid wired-wireless NoC design. IEEE Transactions on Parallel and Distributed Systems. 1045-9219.
27. Opoku Agyeman, M., Vien, Q.-T., Hill, G., Turner, S. J. and Mak, T. (2016) An efficient channel model for evaluating Wireless NoC architectures. In: Workshop on Applications for Multi-Core Architectures. IEEE XPLORE. (Accepted)
28. Opoku Agyeman, M., Vien, Q.-T. and Mak, T. (2016) An analytical channel model for emerging wireless Networks-on-Chip. In: IEEE/IFIP International Conference on Embedded and Ubiquitous Computing (EUC 2016). France: IEEE Computer Society. (Accepted)
29. Opoku Agyeman, M. and Zong, W. (2016) An efficient 2D router architecture for extending the performance of inhomogeneous 3D NoC-based multi-core architectures. In: SBAC-PAD Workshop on Applications for Multi-Core Architectures. USA: IEEE . (Accepted)
30. Rose, T. J. and Bakaoukas, A. G. (2016) Algorithms and approaches for procedural terrain generation. In: Proceedings of the 8th International Conference on Virtual Worlds and Games for Serious Applications. Barcelona, Spain: Institute of Electrical and Electronic Engineers. (Accepted)
31. Sani, Y., Mu, M., Mauthe, A. and Edwards, C. (2016) A Bio-inspired HTTP-based adaptive streaming player. In: 2016 IEEE International Conference on Multimedia and Expo (ICME 2016). Seattle, USA: IEEE. (Accepted)
32. Turner, S. J. (2016) Enhancing computing student employability skills through partnership working in STEM outreach. In: Wu, B.and Kassel, S. (eds.) Software Engineering Education Going Agile: 11th China-Europe International Symposium on Software Engineering Education (CEISEE 2015). Cham: Springer International Publishing. 9783319291659. pp. 67-71.
33. Turner, S. J. (2016) Python junkbot. Poster presented to: Python Conference (PyCon) UK 2016, Cardiff, 15-19 September 2016.
34. Turner, S. J. and Childs, K. (2016) Artists. In: Caldwell, H. and Smith, N. (eds.) Teaching Computing Unplugged in Primary Schools: Exploring Primary Computing Through Practical Activities Away from the Computer. London: Learning Matters. pp. 51-72.
35. Wen, Z. and Opoku Agyeman, M. (2016) On improving the performance of hybrid wired-wireless Network-on-Chip architectures.In: International Workshop on Network on Chip Architectures (NoCArc 2016). New York: ACM. (Accepted)
36. Zong, W., Wang, L., Xu, Q. and Opoku Agyeman, M. (2016) SlideAcross: a low-latency adaptive router for chip multi-processor.In: Proceedings of Euromicro DSD/SEAA 2016. Cyprus: IEEE. (Accepted)

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

How to be an Unplugged Artist

A recently released book Teaching Computing Unplugged in Primary Schools  edited by Helen Caldwell (University of Northampton) and Neil Smith (Open University) has a number of interesting chapters by authors who are passionate about how computing is taught in schools. The central theme is unplugged activities, without using computers, but still teach the fundamental of computational thinking.

Ok, confession time. I co-wrote, along with Katharine Childs (Code Club), Chapter 3 Artists so I am biased here, but I believe in the central theme of Unplugged Computing. Computing, and Computational Thinking in general,  is not just about programming and using a computer (though using computers and  programming are vitally important to Computing) but it is also about many other things including problem-solving, being creative and working collaboratively.

Chapter 3 is about linking these computational thinking ideas to produce visual art, by applying computing principles including  repetition, following and refining algorithms, and abstraction. The chapter also looks, how these links have already being made, with examples such Sol Le Witt where not all the work that was produced by the artist himself, but some by others following his written instructions - in other words an algorithm. There is even a game Thomas's Tangles

The other chapters make links with areas such as Robots, Musicians, Explorers, Magicians, Gamers, Cooks and Scientists.

References

Barr, D., Harrion, J., and Conery, L. (2011) Computational Thinking: A Digital Age Skill for Everyone Leading and Learning with Technology, ISTE, March/April 2011 [accessed via http://www.csta.acm.org/Curriculum/sub/CurrFiles/LLCTArticle.pdf on 26/12/2015]

Barr, V. and Stephenson, C. (2011) Bringing Computational Thinking to K-12, ACM Inroads, Vol 2. No 1, pp 48 - 54 [accessed via http://csta.acm.org/Curriculum/sub/CurrFiles/BarrStephensonInroadsArticle.pdf on 26/12/2015] https://doi.org/10.1145/1929887.1929905

Computing at School (2013) Computing in the National Curriculum: A guide for primary teachers [accessed via http://www.computingatschool.org.uk/data/uploads/CASPrimaryComputing.pdf on 13/3/2016]

Denning, Peter J. (2009) Beyond Computational Thinking, Communications of the ACM Vol 52, Issue 6, pp 28 - 30 [accessed via http://sgd.cs.colorado.edu/wiki/images/7/71/Denning.pdf on 26/12/2015]

DfE: Department for Education (2013) National Curriculum in England: computing programmes of study

Freedman, J. (2015) Cycloid Drawing Machine [online] URL: https://www.kickstarter.com/projects/1765367532/cycloid-drawing-machine accessed on 3/3/2016.

Google. 2016 Project Jacquard [online] URL: https://www.google.com/atap/project-jacquard/ accesed on:1/3/2016.

Knuth, D. 1968. Preface, The Art of Programming vol 1., Boston: Addison-Wesley.

Knuth, D. 1996. Foreword. In: Petkovsek, M., Wilf, H., Zeilberger, D. A=B.. Natick: A K Peters/CRC Press, vii.

Koetsier, T., 2001. On the prehistory of programmable machines: Musical automata, looms, calculators. Mechanism and Machine Theory, 36(5), 589-603. https://doi.org/10.1016/S0094-114X(01)00005-2

Menegus, B (2016) CDMS: Built with Processing [online] URL: http://wheelof.com/sketch/ accessed on 4/3/2016

MoMA. 2012. MoMA| Video Games [online] URL: http://www.moma.org/explore/inside_out/2012/11/29/video-games-14-in-the-collection-for-starters/ accessed on: 1/3/2016.

Papert, S (1993) The children's machine: Rethinking schools in the age of the computer. New York: Basic books

Pearson M (2011) Generative Art: A practical guide using Processing, New York: Manning, 3-12

Selby, C. and Woollard, J. (2013) Computational thinking: the developing definition University of Southampton [accessed via http://eprints.soton.ac.uk/356481/7/Selby_Woollard_bg_soton_eprints.pdf on 26/12/2015]

The Art Story (2016) Sol LeWitt [online] http://www.theartstory.org/artist-lewitt-sol.htm accessed on: 6/3/2016

Wing, J. (2006) Computational Thinking Communications of the ACM Vol 49 pp 33 - 35 [accessed via https://www.cs.cmu.edu/~15110-s13/Wing06-ct.pdf on 26/12/2015] https://doi.org/10.1145/1118178.1118215

Wing, J. (2011) Computational Thinking - What and Why The Link - News from the School of Computer Science, Issue 6.0, Spring 2011 [accessed via http://www.cs.cmu.edu/sites/default/files/11-399_The_Link_Newsletter-3.pdf on 26/12/2015]

Liukas L (2015) Activity 7 The Robots Hello Ruby - Adventures in Coding, New York: Feiwel and Friends, 94-97.

Schofield, S (2016) Generative Artworks [online] URL: http://www.simonschofield.net

Turner S (2016) 3 'Art' Scratch Projects [online] URL: http://compuationalthinking.blogspot.co.uk/2016/03/3-of-my-scratch-projects-for-week.html accessed on: 12/3/2016.

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

We can compute – undergrads scoop society awards

Taken from: http://www.northampton.ac.uk/news/we-can-compute-undergrads-scoop-society-awards/

Computing undergraduates from the University of Northampton have been recognised for their work with awards from two prestigious bodies.

Ten students received awards during the Northampton British Computing Society branch annual general meeting, which was held at Avenue Campus on Thursday 29 September.

Gongs were awarded by the British Computing Society (BCS) and HM Government Communications Centre (HMGCC)

Gary Hill, Head of Computing at the University, said: “I’m proud that our students have been recognised for their achievements from the British Computer Society and HMGCC.

“To have such an award win on their CVs will help to give them a competitive edge when they embark on their chosen careers.”

The award winners were:

BCS Best Computing 1st Year Award – Oloruntobi Abimbola Ayilara

BCS Best Computing Student Performance Prize – William Hurer-Mackay

BCS Best Business Computing 1st Year Award – Florin-Sebastian Ciobanu

BCS Best Business Computing Student Performance Prize – Souad McFarlane

HMGCC Best Dissertation Prize – Riyam Khalid Kareem Marjan

HMGCC Best Group Project Prize – Doaa Mundher Dalal Al-Midhatee, Gideon Awuah, Solomon Green, Ohood Hazim Sabr Sabr and Sana Ullah.

All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with. Twitter: @scottturneruon

Artist chapter in forthcoming book

In a forthcoming (at the time of writing)  book Teaching Computing Unplugged in Primary Schools: Exploring primary computing through practical activities away from the computer, (eds, Helen Caldwell and Neil Smith), one of the chapters has been co-written by a member of the Faculty of Arts, Science and Technology, University of Northampton's Department of Computing (me, Scott Turner) and Katharine Childs from Code Club. Chapter 4 Artist's (appropriate for a member of the Faculty ) looks at using computing and computational thinking ideas to produce images on paper. 

Some examples of one of the activities in action  can be seen at unplugged activity - Thomas' Tangles.

The book comes out at the end of October 2016.




If you'd like to find out more about Computing at the University of Northampton go to: www.computing.northampton.ac.uk. All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with

An analytical channel model for emerging wireless Networks-on-Chip

Opoku Agyeman, M., Vien, Q.-T. and Mak, T. (2016) An analytical channel model for emerging wireless Networks-on-Chip. In: IEEE/IFIP International Conference on Embedded and Ubiquitous Computing (EUC 2016). France: IEEE Computer Society. (Accepted)

Abstract
Recently wireless Networks-on-Chip (WiNoCs) have been proposed to overcome the scalability and performance limitations of traditional multi-hop wired NoC architectures. However, the adaptation of wireless technology for on-chip communication is still in its infancy. Consequently, several challenges such as simulation and design tools that consider the technological constraints imposed by the wireless channel are yet to be addressed. To this end, in this paper, we propose and efficient channel model for WiNoCs which takes into account practical issues and constraints of the propagation medium, such as transmission frequency, operating temperature, ambient pressure and distance between the on-chip antennas. The proposed channel model demonstrates that total path loss of the wireless channel in WiNoCs suffers from not only dielectric propagation loss (DPL) but also molecular absorption attenuation (MAA) which reduces the reliability of the system.

To read more go to An analytical channel model for emerging wireless Networks-on-Chip


If you'd like to find out more about Computing at the University of Northampton go to: www.computing.northampton.ac.uk. All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with

Northampton courses Top 20 for Computing

In the recently released Guardian League tables (http://www.theguardian.com/education/ng-interactive/2016/may/23/university-league-tables-2017#S220) the Computing Course at the University of Northampton are in the Top 20 in the UK.

In the top 10 (out of 102) for Satisfied With Teaching

In the top 5 (out of 102) for Satisfied with the Course 

If you'd like to find out more about Computing at the University of Northampton go to: www.computing.northampton.ac.uk. All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with

Exploring robotics with Red and Smurf

In an in-reach STEAM activity day I have had the opportunity to show off two NAO robots in action to a group of 8-years olds. As well presenting a short presentation on social robots (see below). By the way Red and Smurf are the nicknames for the two robots.

Meeting our robots at our #science day for girls pic.twitter.com/0XwllXL40s

— Chris Fidler (@Chris_UNPR) March 3, 2016

Meet Smurf and Red at Girls S.T.E.A.M. @UniNorthants @scottturneruon @Changemaker_Hub @nick_petford pic.twitter.com/ZMt07ZrSVh

— STEM at UN (@STEMatUN) March 3, 2016

Buddy will be in homes soon Girls into S.T.E.A.M. @scottturneruon @UniNorthants @Changemaker_Hub pic.twitter.com/1jIsU8IKon

— STEM at UN (@STEMatUN) March 3, 2016

Social robots meet red and smurf from Scott Turner

If you'd like to find out more about Computing at the University of Northampton go to: www.computing.northampton.ac.uk. All views and opinions are the author's and do not necessarily reflected those of any organisation they are associated with