Cognitive Radio Architecture MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Cognitive Radio Architecture, a fundamental topic in the field of Cognitive Radio. Whether you're preparing for competitive exams, honing your problem-solving skills, or simply looking to enhance your abilities in this field, our Cognitive Radio Architecture MCQs are designed to help you grasp the core concepts and excel in solving problems.

In this section, you'll find a wide range of Cognitive Radio Architecture mcq questions that explore various aspects of Cognitive Radio Architecture problems. Each MCQ is crafted to challenge your understanding of Cognitive Radio Architecture principles, enabling you to refine your problem-solving techniques. Whether you're a student aiming to ace Cognitive Radio tests, a job seeker preparing for interviews, or someone simply interested in sharpening their skills, our Cognitive Radio Architecture MCQs are your pathway to success in mastering this essential Cognitive Radio topic.

Note: Each of the following question comes with multiple answer choices. Select the most appropriate option and test your understanding of Cognitive Radio Architecture. You can click on an option to test your knowledge before viewing the solution for a MCQ. Happy learning!

So, are you ready to put your Cognitive Radio Architecture knowledge to the test? Let's get started with our carefully curated MCQs!

Cognitive Radio Architecture MCQs | Page 15 of 15

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Q141.
Which among the following options should replace the block labelled ‘A’?
Discuss
Answer: (d).Prior state Explanation:Prior state exists between decide phase and observe phase. The prior state works with current state to determine the effectiveness of a communication mode. It is also used to associate RF mode in accordance to the specific-explore-refine model.
Q142.
Which among the following option should replace the block labelled “B”?
Discuss
Answer: (b).Natural language processing functions Explanation:Sensory information, characters, words, and phrases are a part of the hierarchical structure of observe phase. They are mapped to the natural language processing function which uses information from a priori natural language knowledge. Natural language processing is required to integrate speech, and textual exchanges in cognitive radio.
Discuss
Answer: (a).Control, training, model update Explanation:The diagram depicts the steps involved in the application and improvement of radio skills. The radio skills developed from static and active knowledge available in observe phase is used to control radio personalities. The radio skill model is also continually updated by using information from act phase.
Q144.
Which among the following phases do the components B1, B2 belong?
Discuss
Answer: (d).Orient Explanation:The component B1 and B2 belong to the orient phase of cognition cycle. B1 evaluates word and phrase bindings to form dialog states. B2 is responsible for creating action requests based on binding and dialog state.
Q145.
Which among the following phases do the components A1, A2, A3 belong?
Discuss
Answer: (a).Observe Explanation:The components A1, A2, and A3 belong to observe phase of the cognition cycle. A1 is called as input map which connect the world unit to sensory data. A2 is a transformation component that converts atomic stimuli into primitive sequence. A3 is projection component that binds sequence to bindings.
Q146.
Which among the following correspond to the point plotted in the graph?
Discuss
Answer: (c).Software defined radio Explanation:The graph depicts the design space of software defined radio. The plotted point corresponds to an ideal software defined radio. An ideal software radio is one in which every physical layer function is software defined. The radio must be flexible, multifunction, programmable, and easy to upgrade.
Q147.
Which among the following correspond to the point plotted in the graph?
Discuss
Answer: (b).Digital cell site Explanation:The graph depicts the design space of software defined radio. The plotted point corresponds to the digital cell sites. These devices are typically constructed using Application Specific Integrated Circuits (ASICs). The devices depend greatly on digital filter ASICs for frequency translation and filtering. They access the spectrum at IF frequency.