0. Intelligent Asset Tracking through RFID (Radio Frequency IDentification)Ìý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Corporate Quality in Cisco is looking for a three person team to research the technology, analyze methods and approaches, and recommend alternatives and solutions based on business benefits, cost analysis, feasibility, and scalability. This project requires technical and business innovation. The assignment will include assessing existing solutions, designing and implementing programs to optimize existing methods, as well as presenting recommendations on new approaches based on research and analysis of the feasibility and scalability of RFID implementations. Ideally, the team will be comprised of 2 CS/CEs or EEs with programming skills, knowledge of data bases, tooling and SW design and one MBA with strong communication (both written and verbal) and business analysis skills. Networking knowledge, RFID, hardware engineering and strong excel programming knowledge are desirable. Seniors and grad students are preferred. US citizenship or permanent residence required. Job location is San Jose.
0. Building a prototype to integrate Video with Java-based IVR and Contact Center applications (UCCX)Ìý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
As more and more phones and end devices are becoming video enabled today it is of strategic interest to incorporate video into our Java based UCCX product. Contact center agents will be able to see the customer or show prerecorded videos. For example in a support center environment, the engineer would want to stream a video to the customer describing how to resolve a certain problem. Cisco today has many video capable devices such as gateways or other applications such as CVP 4.5 and we are looking for new innovative ways to integrate these products. Cisco is seeking a team of 3 interns with a computer science background to work on this project. Job location is San Jose.
0. Unified Communications ApplicationsÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The team of Â鶹´«Ã½ students assigned to the IPCBU applications team would be utilized to further our Unified Communications Applications thrust. This effort is focused on developing a variety of Unified Communication (UC) applications that leverage our evolving IP Phone portfolio, showcasing the new software and hardware features being introduced in this product line. Working along side both the business and development organizations, the students would work with the team to identify, evaluate business value, scope the development effort, and develop the UC Applications that show business potential and that showcase our portfolios new capabilities and advanced feature set. The resulting applications will be utilized in our Executive and Customer Briefing Centers, Tradeshow booths, and by our business team in customer engagements. Additionally, some of the applications may be packaged with our IP Phone products themselves or as part the Software Development Kits (SDK) for our Developer Partners to leverage within their value added applications.
Specifically, we envision a team of 4 - 6 interns with a mix of software engineering (Java MidP and Web 2.0 experience), project management, and business background to work as a team on this project. Job location is San Jose.
0. Characterize and refine the design of components of a molecular diagnostic instrumentÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The project will be to characterize and refine the design of various components and modules of molecular diagnostic instruments that can include: modules to control temperature, modules to dispense liquids, modules to sense liquids, modules to mix, and modules to capture magnetic beads. The project will involve characterization of module performance in the lab using a variety of tools and test equipment, data analysis and presentation, design of test fixtures, and design of electro mechanical assemblies.
Three team members will be required with the following majors: One electrical engineer with an interest in sensing and analog circuits, two mechanical or bio engineers, all students should have an interest in automated instruments. Seniors or graduate students are OK for all positions.
Desirable skills: data collection and analysis; presentation; electro mechanical components; analysis of thermal systems; analog circuit design.
0. GUI (graphical user interface) for anchor design software - International ProjectÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The task is to develop a new Graphical User Interface (GUI) for Hilti's anchor design software. This GUI should utilize established IT industry technologies to communicate the software functionally in a simple and intuitive way to design professionals in the construction industry. The team will develop a non-functional prototype and then conduct costumer usability tests in the United States. Based on the findings of the usability tests, the GUI will be revised. The team will work with a Hilti project manager and interact with Hilti-internal, as well as Hilti-external personnel. Project requires one (1) structural engineering student (preferably with practical design experience), one (1) IT student with focus on software ergonomics/usability/GUI design and one (1) IT student with strong GUI programming skills. Senior or graduate students are preferred. Required skills: basic understanding of construction/design practice, knowledge of work science (human-computer interaction), graphical design capabilities, programming skills. The team will spend part of the internship period in Schaan, Liechtenstein (100 km East of Zurich, Switzerland), and part in the US (San Diego, CA and/or Tulsa, OK).
0. Electrical Plug System for Underground Mining Applications - International ProjectÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The task is to define a design concept for an electrical plug system feasible for handheld electrical equipment in underground mining applications. This new plug system will expand the level of utilization compared to an existing Hilti system solution. The first step is to attain in-depth technological understanding of the available plug systems on the market, with focus on the US and Canada, with regard to application range, flexibility, approval requirements and handling. In the next step different concepts should be identified and evaluated by the utilization and testing of functional samples. Basic requirements are an easy handling of the plug connection without a tool, robustness in a mining environment and sufficient explosion protection for American and other ATEX mining markets. The project requires two (2) mechanical engineers with solid experience in design, material science, CAD and functional analysis, as well as one (1) electrical engineer, who brings knowledge in energy supply, three phase current and manufacturing technologies. Senior or graduate students are preferred. The internship will be located in Kaufering/Germany (30 mi. west of Munich).
0. Qualcomm Mobile Device UI Software InternshipÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
This internship, under the direction of the Qualcomm mobile device UI software team, will offer the opportunity to work on next generation mobile UI technologies and enhanced graphics capabilities. Examples include but are not necessarily limited to the following areas: 3D User Interfaces, Inertial Sensors, Touch-screen User Interface, Web Services and Applications.
Ideal candidates are detailed and technical programmers with good communication skills. Must be able to learn a complicated embedded UI environment and translate this into clean well implemented code. Experience with high level languages such as C/C++, script and/or mark-up languages essential. Share responsibilities and communicate technical knowledge within a dynamic team environment.
Prefer students majoring in Computer Science - BS or MS. Course work should include Computer Architecture, Programming Languages (especially C/C++, High Level languages, and other scripting and/or mark-up languages), Operating Systems, Algorithms, and Computer Networks and/or Web Technologies.
0. Developing Real Time tools for Evaluating Video Quality in MediaFLOÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Qualcomm MediaFLO Technology SIT team is looking for three interested students to work on developing and evaluating real time objective tools for establishing video quality. With MediaFLO becoming commercial it is essential that we have a tool that immediately recognizes insufficient video quality, and alarm the operators. Two video tools are under consideration: VQM and SSIM. The students will first calibrate and evaluate the performance of the two against subjective video test for all type of content. Also the students will develop tools to compare DVB-h and MFLO quality. After that they will develop the GUI which will contain not only video quality scores, but also values of features that are responsible for the video quality score. The tool will have ability to generate alarms for insufficient quality, recording of corresponding logs, as well as the video clip at the time of problem occurrence. The team should be comprised of three students with computer and electrical engineering majors. Seniors or first year graduate students preferred. Skills required: knowledge of wireless communications important, good computer language scripting skills and some video processing desired.
0. Performance, capacity, and competitive analysis: wired peripheral interfaces - Location: Haifa, IsraelÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The project deals with the study and enhancements of various data streams over USB and SD/SDIO interfaces of the mobile phone / cellular modem. The Team will identify the relevant parameters and then devise a strategy to measure them. Competitive analysis will be included as well. The Team will deal directly with various bus analyzers and will need to come up with creative methods to identify the bottlenecks and the drawbacks of the existing solutions. The interns will learn the messaging schemes for different protocols and help to improve the HW/SW partition to make sure that Qualcomm's solutions continue to be the "best in Class" solution. The Team will learn the theory of streaming data over different physical interfaces, how to read standards, how to work with various test equipment and also how to prepare engineering reports. This internship is very diverse in its nature. 2-3 broad-minded EE undergraduate students with understanding and desire to explore in the areas of: Performance Analysis, Software/Systems, SW drivers, wired protocols, Audio/Video data streaming, performance characterization in the wired domain, analytical and hands-on software/system characterization are required. Some SD/SDIO/USB protocol theory or hands-on experience would be beneficial. Knowledge in Audio/Video/IP traffic and data flow would also be a plus. Project Location: Haifa, Israel.
0. Digital Design and Verification for peripheral sub-system - Project Location: Haifa, IsraelÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
This internship is about working with the digital design team that develops next-generation wired-peripheral interfaces to Qualcomm chips. The work will include digital design and verification tasks. More details will be added shortly. Internship position is open for 2-3 EE undergraduates with logic design background. Project Location is Haifa, Israel.
0. Universal Broadcast (Mobile TV) Module Performance Tools - Project Location: Haifa, IsraelÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The System Engineering Team is involved in taking existing test tools and new tools related to UBM (Universal Broadcast Modem) and turning them into production tools that can be used by the testing teams, field teams, handset OEM's and test equipment vendors. The tools include analysis of the logs to extract physical layer related behavior, performance and parameters. The intern/engineer will be exposed to the development methodology and learn to deliver functional and functionally tested software. The intern/engineer will also be exposed to software architecture development that is "designed for change" and learn how to adapt software to evolving requirements. Internship position is open for 1-2 EE interns with communication background familiar with Matlab. Project Location is Haifa, Israel.
0. Universal Broadcast (Mobile TV) Module Performance Optimization - Project Location: Haifa, IsraelÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The System Engineering Team is involved in development of UBM (Universal Broadcast Modem) and tuning them into state of the art products. Some of the emended algorithms require tuning and optimization in order to achieve the expected performance. The engineer will be exposed to the development methodology and learn to deliver functional and functionally tested simulation and software. The engineer will also be exposed to simulation architecture development that is "designed for change" and learn how to adapt simulation to evolving requirements. Internship position is for an EE M.Sc. student with communication background and familiarity with Matlab. Project Location is Haifa, Israel.
0. QCM Data Networking - Project Location: Haifa, IsraelÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The development team for Data Networking support in the QCM (Qualcomm Component Model) layer in the phone SW stack is engaged in the re-architecture of Data Networking API for QCM cellular applications in the areas of Sockets API, Data Network Management (Data calls initiation, Network configuration, etc.), HTTP API, DNS requests, Quality Of Service and more. This includes Definition of APIs for existing and new Data Networking features, Win32 simulation, Backward compatibility layer to support BREW applications, development and execution of QCM applications (both on a reference cellular phone and Win32 phone simulation environments) for testing of the new QCM APIs and more. The intern shall be exposed to the QCM infrastructure and the Data Networking module in the cellular environment. Internship position is open for 2 Computer Science undergraduates. Location is Haifa, Israel.
0. CarConnect - Vehicle to Grid (V2G) Business OpportunityÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Over the next few years, SDG&E will replace every mechanical electric meter with a digital meter and communication infrastructure. The project is called Smart Meter, and refers to a network of automated gas and electric meters and/or modules connected to communications equipment. Smart Metering allows for two-way communication between the utility and the customer premises. There is a technical potential and economic impact of using the existing idle capacity of the U.S. electric power infrastructure in conjunction with the emerging plug-in hybrid electric vehicle (PHEV) technology to meet the majority of the daily energy needs of the U.S.
This project focuses on a conceptual design to integrate PHEV into the Smart Meter system. Areas of investigation in this project will include: Means of measuring PHEV charging from and discharging to the grid; Battery discharging must be governed by user preference; Identify candidate vehicle manufacturer(s); Smart Meter must recognize the vehicle (vehicle identification); Battery charging may be deferred to low-cost energy prices (off-peak); Conceptual design must use the Smart Meter Home Area Network; Leverage other SDG&E intellectual properties (last year's Intern project).
Deliverables will include technology assessment (technology viability, device design, and manufacturer acceptance), market assessment (market opportunity, customer preferences, subsidy requirements), and financial assessment (financial projections, capital requirements, operating costs).
SDG&E is seeking 4 students, junior and seniors preferred: 1 Automation/control engineer; 1 Computer Science (firmware) engineer; 1 Electrical Engineer (micro power emphasis); 1 MBA (emphasis in marketing and finance).
Required skills: Building automation standards for automation engineer; Form factor, low power, low profile, ease of integration with auto; Micro power engineering; Circuit board layout; Automobile electrical systems a plus. Desired skills: Teamwork; Presentation; Documentation.
0. New Product Introduction (NPI) Concept Evaluation ToolÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The Team Interns will be collaborating with and expanding upon the work of a Solar graduate team from Â鶹´«Ã½'s Architecture-based Enterprise Systems Engineering (AESE) program.
The primary objective of this project is to develop a working prototype of a tool that is used to evaluate new turbine engine concepts that Solar should invest in. The tool needs to be able to look up or accept input and possibly integrate models across multiple functional domains (Engineering, Marketing, Customer Service, Finance) and then the tool will provide recommendations based on defined parameters and statistical analysis.
Recommended skills are: Software development/Systems Engineering experience, Web platforms, Relational Databases, OO design/development, Service Orientation. Specific experience with .Net/SQL Server and Web Services is desired.
A mix of 3-4 students, Freshman to Graduate, from the computer science and engineering disciplines, and at least one business student is desired.
0. Efficient presentation of complex vibration data via the WebÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The primary objective of this project is to develop efficient methods of presenting complex vibration data utilizing Web-based HMI screens. Vibration information is useful in determining the health of turbo-machinery. The challenge is to efficiently present graphical information that is generated from large amounts of data over the web to a full spectrum of client devices from fixed displays, remote desktops to mobile phones and PDA devices. The project will be a blend of analysis and implementation, including hands-on development work using OO principles and current industry standard processes for software development. Required Skills include knowledge of object oriented development, C++ or C# , JavaScript, HTML, XML, strong team skills, strong communication skills, and web client development experience. Desired skills include familiarity with Ajax web development, Adobe Flash development, distributed controls systems and gas turbines. A team of 3 students is desired, Freshman to Graduate, from the computer science and engineering disciplines.
Ìý
0. Evaluation of methodologies to be employed under the UN Framework Convention on Climate Change (UNFCCC) Clean Development Mechanism (CDM)Ìý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Under the UNFCCC Kyoto Protocol, developed (Annex 1) countries have a commitment to reduce their greenhouse gas (GHG) emissions by 5% below 1990 levels by 2012. One way these reductions can be achieved is by investing in GHG emissions reduction projects in developing (non-Annex 1) countries to obtain Certified Emissions Reductions (CERs), which an Annex 1 country can use towards its GHG emissions reduction commitment to the UN. Such projects must be executed according to a methodology submitted to and approved by the UN CDM Executive Board. There are currently 126 approved methodologies of which 29 have potential to employ Solar's products. 22 additional methodolgies are under consideration for approval. The primary objective of this project is to evaluate approved CDM methodologies to determine which of Solar's products are best suited to deployment under each methodology. For each methodology under which Solar's products might be advantageously employed, the following need to be produced:
(1)Quantitative estimate of the potential GHG emissions reductions (annual tons CO2 equivalent) for the Solar products that best fit the methodology; (2)List of critical criteria which a project must exhibit for Solar's products to fit the methodology; (3)Geographical analysis of where in the world such projects would likely be found; (4)Changes to the methodology that might improve applicability of Solar's products; (5)Some type of communication (white paper, PowerPoint presentation, etc) for the sales force and external project developers that will enable them to identify GHG emissions reduction projects with the best potential to employ Solar's products.
Recommended skills: Engineering education, ability to conduct a quantitative analysis, ability to understand and analyze complex mathematical equations, strong written communication skills.
The ideal team is made of 3-4 students, freshman to graduate level, from engineering, math and/or environmental science departments.
0. ViaSat Knowledge DatabaseÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
ViaSat will implement a company-wide knowledge database to search, publish, and organize data within the company. Interns will work with the AESE team to develop an initial prototype of the knowledge database system. This may include development of a user interface, back-end data repository search capabilities, using either COTS or internally-developed software, and connecting disparate systems via an Enterprise Service Bus (ESB). ViaSat is seeking three CSE students: one Database Engineer with expertise in IT/System Administration, Linux and Databases/Data Mining; one User Interface/Portal Engineer with expertise in Graphical User Interfaces, Usability Analysis, and Web portal design (and associated programming languages), and one Middleware Engineer with expertise in XML-based Software Development, Databases/Data Mining and Scripting.
0. Tactical ESB implementation Part 2Ìý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Expand and enhance the 2007 TIP proof-of-concept system to allow transmission of Link-16 SA information over disparate communication systems and displays. An open source Enterprise Service Bus (ESB) connected MIDS-LVT and UHF radios; and projected information on C2PC, Google Earth/Maps, and Falcon View displays. The enhancement would be to add trusted services to the ESB based on the WS-Security standard used to secure Web Services. The trusted services could include one or more of the following security services: authentication, access control, encryption/decryption using policy enforcement and decision points. ViaSat is seeking two Software Developers with expertise in C/C++, JAVA, Service Oriented Architectures (desired), experience writing WEB applications (desired) or experience with embedded software (desired); and one Software Developer/Equipment Integrator with expertise in C/C++ and with a basic understanding of wired and wireless networks and good trouble shooting skills and experience integrating HW/SW. Seniors preferred. Must be US Citizens.
0. Automated Metrics Collection SystemÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
ViaSat is implementing an automated metrics collection system. The system will mine, store and publish development metrics. Interns will work with the Metrics Working Group (MetWG) to design and implement a scalable metrics collection system. The system will mine metrics data from existing repositories that contain (at a minimum) requirements, problem reports, code, and effort data. The interns will gain experience in requirements, design and implementation for user interface development, back-end data repository search capabilities, and report generation. ViaSat is seeking one Database Engineer with expertise in IT/System Administration, Linux and Databases/Data Mining; one User Interface/Portal Engineer with expertise in Graphical User Interfaces (GUI), Usability Analysis and Web Portal Design and associated programming languages; and one Middleware Engineer with expertise in Software development, Databases/Data Mining and Scripting. Must be US Citizens.
0. Crypto Sub-System DemonstratorÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
To modify an existing, classified Crypto Sub System (CSS) demo to display system capabilities and the ability to support multiple single levels of security (MSLS) in an un-classified environment. The Team would use existing cryptographic hardware developed by the Network Systems Group. The Team would add a graphical interface to these tools to make them easier to understand for the non-technical observer. Need to connect standard UDP/IP (voice and video over IP) devices to send network traffic through the CSS demo. Develop an Adobe Flash (or equivalent)-based graphical demo that would be synchronized with the technical demo on the hardware and test tools to give a simplified and graphical view of what is occurring. Finally, create a very simple key loader. All the support equipment needs to be selected and packaged to travel. The overall design of the demo needs to enable simple set up and tear down. It also needs to be robust so minimal time will be needed to debug upon setup. Experienced SW and HW engineers will support the Team. ViaSat is seeking 4 Computer and Software Engineering students for the following roles and with the following skills: 1. Role: Develop the graphical interface to existing test tools: Skills: Python or other scripting experience (Perl/TK, TCL/TK, etc.); IP Networking (UDP); GUI development; 2. Role: Develop a key load simulator and/or UDP to CSS PDU pack/un-packer; Skills: C & C++, Python or other scripting experience (Perl/TK, TCL/TK, etc.); IP Networking (UDP) ; Serial protocols; 3. Role: Develop the overview animation demonstrating what the hardware is doing; Skills: Adobe Flash or other animation software; Python or other scripting experience (Perl/TK, TCL/TK, etc.); AJAX (Java Script, XML); 4. Role: Make the demo animation to be interactive and show the real time data flow and status of the HW; Skills: Adobe Flash or other animation software; Python or other scripting experience (Perl/TK, TCL/TK, etc.); AJAX (Java Script, XML); In addition, ViaSat is seeking 1 EE to build up the demo hardware into a robust and shippable system (Verilog or VHDL on Xilinx skills desired). All applicants must be US Citizens
0. Terrestrial Augmentation of Satellite NetworkÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The purpose is to develop a platform which is capable of communicating simultaneously over commercial broadband satellite and terrestrial channels. Specifically we want to augment a SurfBeam modem with a DSL modem and routing capability to be able to route traffic over either path. ViaSat is seeking 3-4 EE, CE or ME students with the following roles and skill sets: 1. Role: select a dsl platform (eval board) and determine how to connect it to the SurfBeam board; skills: Digital Hardware Design and integration; Digital communications interfaces (Ethernet, PCI, DSL); Embedded Software; 2. Role: Implement a very simple routing function to send traffic both ways; skills: Embedded SW; Network Protocols; 3. Role: Packaging the additional circuitry and additional interfaces into a SurfBeam modem; skills: Packaging, interfaces, digital power; 4. Role: Optional Role: Implement VoIP path; skills: Understanding of network protocols.
Ìý
Ìý
Ìý
0. Nocturnal blood pressure monitoring optimized for sleep-disordered breathing - Project Location: Sydney, AustraliaÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
ResMed's Applied Research department invites a three person team to interface a variety of monitoring and therapy devices, the goal of the system being improved monitoring of the blood pressure effects of sleep-disordered breathing. The system elements will include a non-invasive blood pressure monitor, pulse oximeter, respiratory flow sensor, and a ResMed therapy device. The system is broadly based on a published configuration, but with key differences. The system is to be developed and validated to a level appropriate for clinical research. Time permitting; the scope of the project may extend to marketing elements, such as analyzing the needs of patients, clinicians, regulators, etc. This analysis may assess potential for applications for home monitoring, and the appropriate system configuration for such applications. Project challenges include: a variety of communication protocols; (possibly) incompletely documented third party products; development and implementation of signal-processing algorithms; and optimization of data transfer. Ideally, the team will be comprised of two Software engineers and one Electrical Engineer with an excellent mutual understanding of electronics and software design. Networking knowledge, hardware engineering and strong programming knowledge (embedded & Windows) are desirable. Seniors and graduates are preferred. Job location is Sydney/Australia.
0. Application and Market Evaluation in the area of Nanoparticles - International ProjectÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Carl Zeiss would like to welcome a team of 3 interns from June to August 2008 at its headquarters in Oberkochen, Germany, to independently work on an application and market evaluation project in the area of nanoparticles. The ideal team would consist of one graduate student in nanoengineering, nanoscience or chemistry with a background in synthesis of nanoparticles, one graduate student in physics with a background in optics or metrology, and one graduate student in business administration with a background in market analysis & segmentation, evaluation of companies. Graduate students and seniors are encouraged to apply. If you are interested in applying for this project, you may contact Ruth Kiefer, TIP Program Manager, for a more detailed project description:Ìýrkiefer@ucsd.edu; 858-822-6772.
0. New Product Lines in Personal Health - International ProjectÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Personal Health is one of the fastest growing markets in the life science sector. Due to the aging society in the industrialized countries, more money will be spent in the future for health maintenance and early diagnosis of diseases at home. The goal of this interdisciplinary team project is to identify market entry points and product lines for Carl Zeiss AG to enter into this fast growing market segment. The team will explore and evaluate major trends in Personal Health, describe today's global market and competitive landscape, propose market entry points, and present findings in front of an expert forum for evaluation and discussion. The team should consist of 1 medical engineering student, 1 medical student, 1 biomedical student with a background in genetic diagnosis, 1 graduate student in business administration with a background in market analysis and segmentation, and evaluation of companies. Juniors, Seniors and Graduate students preferred.
0. Repair Development EngineeringÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Skill set required for Repair Development Engineering internship assignment summer 2008: 3rd or later year of Bachelor's degree in mechanical engineering (preferred), aerospace or materials engineering Job description: Access engineering drawings, materials specifications and engineering assembly/functionality requirements to help engineering supervisor and team establish realistic detail parts' inspections and viable repair options. During this assignment there will be considerable mentoring by supervisor and different engineering disciplines to help understand basic gas turbine design, assembly, test and repair. Good interpersonal skills are also a plus.
0. How Much Information?Ìý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
What is the rate of new information production each year? Who produces the greatest amounts of information annually? Individuals? Enterprises? Public organizations? And how does growth in North America compare with information growth in other geographies, markets, and people globally?
To answer these questions and others, a new How Much Information? (HMI) research program is underway. An updated and expanded study of information growth, conducted by a multi-disciplinary, multi-university team supported by corporate and foundation sponsorship, will complete an update of the 2003 Berkeley report by the end of the year. The 2008 report will be the first in a three-year research program, sponsored by seven companies, AT&T, Cisco, IBM, LSI, Oracle, Seagate and the Palo Alto Research Center (PARC), and spanning three research universities, Â鶹´«Ã½, MIT and UC Berkeley.
The HMI Lab will focus on building four reference data sets for analysis and visualization of data classification, data storage, data processing, network flow, and database applications. Test data sets will be requested from HMI? sponsors. The Lab will also conduct its own experiments to generate test data.
2 CS Students required for this project
0. Mobile Instant MessagingÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
The Intercasting Internship Project offers candidates the opportunity to research, design, and implement a mobile instant messaging system that could be incorporated into our ANTHEM Social Networking platform. This project consists of developing both a client and server and requires supporting basic instant messaging and presence features from within a mobile context. Ideal candidates have experience programming with high level languages such as Java or Perl, fundamental knowledge of TCP/IP networking, and great communication and team skills. Additionally, ideal candidates will be passionate about mobile technologies, and will demonstrate a desire to learn and take initiative in a fast-paced, start up environment. Through this internship you can expect to be exposed to a number of different technologies and protocols including (but not limited to); Linux, Apache, Perl, J2SE, SIP/Simple, OMA IMPS, XMPP/Jabber, SMPP, J2ME, and BREW.
Intercasting is looking for two interns who are Computer Science majors and/or who have software engineering backgrounds. Seniors and graduate students are preferred. All applicants must be eligible to work in the US.
0. Motion Platforms and Dispensing TechnologiesÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
2 interns will be selected for this project to work with senior engineers to design, build, and test ultra low-cost x, y, z motion platforms and dispensing technologies. These will be used as building blocks for future instrument developments.
Essential Functions: Prototype and assemble dispenser and translation motion test platforms; perform validation testing on promising dispenser and motion technologies; interface with vendors to obtain materials/products for testing.
Project Deliverables: Functioning benchtop prototypes of two or three design options; report summarizing test results along with pros/cons of each design.
Education Requirements: At least a third year student working towards a degree in Mechanical Engineering.
Experience Requirements: Knowledge of ANSI drawing standards; knowledge of basic machine shop capabilities; hands-on experience with motorized motion applications; well versed in gathering and presenting test/experiment data; SolidWorks experience a plus.
0. Networks Engineering and Communications Project for Distributed C4ISR System-of-Systems ArchitecturesÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Project Scope: Bandwidth Analysis, Modeling and Simulation; Configuration Management and Data Management for Network Configuration; Evaluation, Selection, Development/Configuration, and Test of Network Engineering Tools. Project Description: Task 1 - Bandwidth Analysis, Modeling and Simulation: Planning, analyzing, designing, developing analytical and statistical methodology to assess and measure bandwidth requirement associated with various Command, Control, Communications, Computer, Intelligence, Surveillance, and Reconnaissance (C4ISR) applications on the network. Familiarity or ability to quickly learn network analysis/simulation tools such as OpNet Modeler/ACE, NetViz, Visio, NS2, will be a plus. Experience with Excel programming using Visual Basic will also be desired. Task 2 - Configuration Management and Data Management for Network Configuration: Support the network engineering team with reviewing CM/DM processes and procedures to support documentation, peer review, PCR, ECPs, and delivery of Network and Communications configuration products and services following the established CM/DM processes. Ability to research and leverage industry best practice like Information Technology Infrastructure Library (ITIL) configuration management and change management. Task 3 - Evaluation, Selection, Development/Configuration, and Test of Network Engineering Tools: Evaluate, develop, and test various network engineering tools to measure network performance, automate the provisioning and verification of network configurations. Familiarity with scripting tools like TCL/TK, Excel programming, C++ programming. Experience with network performance tools such as Smartbits, IXChariot, Agilent Network Advisor as plus. Student Skills/Experience Required/Desired: 1. Electrical Engineering/ Computer Engineering/ Computer Science majors; 2. Modeling and Simulation; 3. Opnet; 4. MATLAB R14 (including geographic/mapping, statistics and optimization toolbox); 5. XML, XSLT, and or SOAP programming; 6. C/C++ for Opnet Modeler Node/Process Coding; 7. Computer Networking and Network Calculus. Must be US Citizens.
0. Development and Update of Architectural and Physical Diagrams for a C4ISR System of Systems DesignÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
A System of Systems is a collection of task-oriented or dedicated systems that pool their resources and capabilities together to obtain a new, more complex, 'system' which offers increased functionality and performance than simply the sum of the constituent systems. The team is expected to continue to the development of the existing physical design of a modern Command, Control, Computers, Communications, and Information (C4I) and Intelligence, Surveillance and Reconnaissance (ISR) system of systems. This development entails the identification of equipment locations physically within a platform or site, identifying how each piece of equipment is connected to every other piece of equipment, and relating the physical information to program-defined part numbers and configuration items. Due to the complexity of the design, the team will investigate new ways to extract needed information from the design database in various reports required by the program engineers. In addition, the team will explore different ways of representing the system architecture using standard Department of Defense (DoD) Architecture Framework (DoDAF) views that can then be related to the existing physical design. The ultimate goal will be to develop a means of linking high level system requirements stored within one database to design elements developed and stored within a separate design database, allowing for the complete traceability of requirements to all levels of design. Desired end results and deliverables are:
1. Complete physical drawings for each platform and site on the program including: site layouts, equipment layouts, equipment cabinet configurations, physical interfaces between each piece of equipment including connector and cabling detail, and equipment identified by configuration number and part number. All drawings should be capable of being extracted from the NetViz design tool in standard formats acceptable for inclusion in documentation and presentation materials.
2. Preliminary Bills of Materials (BOMs) auto-generated by the NetViz design tool.
3. Detailed interface tables identifying all physical interfaces for each platform by component connectors, cable type, cable identifier, and interface identifier.
4. Operational and System views that can be used to drill down through the design from a high level architecture to the physical details.
Ìý
Student Skills/Experience Required/Desired:
1. Systems Engineering/Electrical Engineering/Computer Engineering majors
2. Systems Architecture and Design
3. NetViz
4. Visio
5. Database development, SQL, VBA
0. Agile Client DevelopmentÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
This project consists of supporting the further construction of a Command and Control Agile Client. The client will be constructed on the NetBeans platform with the NASA WorldWind geospatial rendering engine. The project will support web based install and update, C2 application migration and 3d rendering of C2 tactical graphics. We are seeking two Computer Science engineering students. Juniors, seniors, and graduate students okay for both positions. US Citizens only, no clearances required. Essential skills: Java programming, NetBeans experience, good communications skills.
0. Maintain Test Lab EquipmentÌý-ÌýALL STUDENT OPENINGS HAVE BEEN FILLED
Maintain test lab environment. - Configure and install lab equipment. - Work with vendors on problem resolution and equipment RMAs. - Document test results and reports detailing test findings. - Documentation and tracking of software defects in defect tracking system through resolution. -
Job Qualifications: Experience: Minimum of 0-3 years of experience in test development and verification. Expertise in any of the following areas will be greatly useful: a) Network configuration b) Disk Product Verification c) Interoperability testing d) Independent lab and operator certification methodologies Education & Training: Bachelors degree in Computer Science or the equivalent. Current undergraduate and graduate students are encouraged to apply. Skills, Knowledge, & Abilities: Excellent communication skills at a level necessary to work effectively with and influence internal and external cross-functional teams are a must. Frequent interaction with software, systems and test engineering teams is required. Excellent technical writing/documentation discipline is essential. Working knowledge of Microsoft Office. Requires confidentiality, ability to take direction and complete assignments as necessary, and ability to work effectively under deadline pressure. This list of duties and responsibilities is not intended to be all-inclusive and may be expanded to include other duties or responsibilities that management may deem necessary from time to time.