Family of Advanced Beyond Line-of-Sight Terminals (FAB-T) Program is seeking self-motivated waveform embedded software engineer to develop and integrate the waveform software for Advanced Extremely High Frequency (AEHF) satellite Extended Data Rate (XDR) capability. Boeing's FAB-T provides protected and survivable communications over Mil-Star/AEHF Satellites.
General
[ + ] Communication
Consistently and proactively clarifies purpose and importance; stresses major points; follows a logical sequence. Guiders others in keeping their audience thoroughly engaged through use of techniques such as analogies, illustrations, humor, an appealing style, body language, and voice inflection. Frames highly complex and or advanced information in line with audience experience, background, and expectations; uses terms, examples, and analogies that are meaningful to the audience. Regularly seeks input from audience; checks understanding; presents message in different ways to enhance understanding. Uses syntax, pace, volume, diction, and mechanics appropriate to the media being used. Attends to both direct and indirect messages from others; correctly interprets messages and responds appropriately. Mentors and advises fellow project leads and other internal employees on effective communication techniques.
[ + ] Contributing To Team Success
Consistently and proactively makes procedural or process suggestions to team leaders, managers and interorganizational employees for achieving team goals or performing team functions; provides necessary resources or helps to remove obstacles to team accomplishments. Listens to and fully involves others in team decisions and actions; values and uses individual differences and talents; shares important or relevant information with the team; adheres to and helps define the team's expectations and guidelines; fulfills team responsibilities; demonstrates personal commitment to the team.
[ + ] Decision Making
Consistently and proactively recognizes a wide range of highly advanced or unusually complex issues, problems, or opportunities across the organization; determines whether action is needed. Adeptly identifies the need for and collects information to better understand issues, problems, and opportunities; has advanced knowledge in integrating unusually complex information from a variety of sources; detects unusually complex trends, associations, and cause-effect relationships. Guides others in creating relevant options for addressing problems/opportunities and achieving desired outcomes; can be relied upon to formulate clear decision criteria; evaluates options by considering implications and consequences; chooses an effective option; implements decisions reliably and initiates action within a reasonable time; includes team leaders, managers and internal employees in the decision-making process as warranted to obtain good information, make the most appropriate decisions, and ensure buy-in and understanding of the resulting decisions.
[ + ] Managing Work
Identifies and creates hierarchy of activities and tasks based on criticality; adjusts priorities when appropriate. Deploys and ensures that required equipment and/or materials are in appropriate locations so that own and others' work can be done effectively and efficiently. Effectively allocates own time to complete work; coordinates own and others' schedules to avoid conflicts and maximize resources. Takes advantage of available resources (individuals, processes, departments, and tools) to complete work efficiently. Consistently uses time effectively and prevents irrelevant issues or distractions from interfering with work completion.
Technical
[ + ] Engineering Processes
Basic - Advanced/expert knowledge of responsibilities and tasks performed by various Engineering departments/disciplines (e.g., design, test, software, technology, avionics). Advanced/expert knowledge of the interaction between departments/ disciplines and how their products/processes affect one another and impact non-engineering processes (e.g., Operations, Logistics, Business).
Preferred -Highly advanced, expert knowledge of responsibilities and tasks performed by various Engineering departments/disciplines (e.g., design, test, software, technology, avionics). Highly advanced, expert knowledge of the interaction between departments/ disciplines and how their products/processes affect one another and impact non-engineering processes (e.g., Operations, Logistics, Business).
[ + ] Languages & Databases
Basic - Advanced, expert knowledge of software programming languages and databases and the ability to apply to the software domain. Programming languages encompass higher order languages, auto-coded languages and assembly languages.
Preferred -Highly advanced knowledge of software programming languages and databases and the ability to apply to the software domain. Programming languages encompass higher order languages, auto-coded languages and assembly languages.
[ + ] Real-time S/W Development Tool
Basic - Advanced, expert knowledge of general and real-time software development and testing tools, capability and usage. Real-time tool examples include cross compilers, target debuggers and test/performance instrumentation.
Preferred -Highly advanced knowledge of general and real-time software development and testing tools, capability and usage. Real-time tool examples include cross compilers, target debuggers and test/performance instrumentation.
[ + ] Real-time S/W Domain Knowledge
Basic - Advanced, expert knowledge of domains, characteristics, constraints and products that require real-time software and influence architecture, requirements, interfaces, designs, and integration/test approaches. Real-time domain examples include control systems, human interfaces and signal processing. Examples of characteristics and constraints that impact real-time software include hardware/software timing, sizing, bandwidth, optimization and synchronization. Examples of products include aircraft, missiles, airborne/shipboard/space systems/ground-based operational systems and real-time support systems such as simulators and training systems.
Preferred -Highly advanced knowledge domains, characteristics, constraints and products that require real-time software and influence architecture, requirements, interfaces, designs, and integration/test approaches. Real-time domain examples include control systems, human interfaces and signal processing. Examples of characteristics and constraints that impact real-time software include hardware/software timing, sizing, bandwidth, optimization and synchronization. Examples of products include aircraft, missiles, airborne/shipboard/space systems/ground-based operational systems and real-time support systems such as simulators and training systems.
Typical Education/Experience
Level 5 - Degree and typical experience in engineering classification: Bachelor's 14 or more years' experience, Master's with 12 or more years' experience or PhD with 9 or more years' experience. Bachelor, Master or Doctorate of Science degree from an accredited course of study, in engineering, computer science, mathematics, physics or chemistry. ABET is the preferred, although not required, accreditation standard.
Level 6 - Degree and typical experience in engineering classification: Bachelor's and 20 or more years' experience, Master's with 18 or more years' experience or PhD with 15 or more years' experience. Bachelor, Master or Doctorate of Science degree from an accredited course of study, in engineering, computer science, mathematics, physics or chemistry. ABET is the preferred, although not required, accreditation standard.
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