Lorem, Ipsum

1. We each see life through our own filter, so do we each hold an Unconscious Bias against other Generations?  If so, why?  And, does this bias help us or hurt us in the workplace?

2. Do you believe the description given for your generation is accurate? Please state the evidence that supports your answer.

3.  Are personal values, perspectives and behaviors influenced more by generational cohort (peers) or by parents, extended family members and teachers who hail from different generations?

4. In your opinion, is the “generation gap” something that has always influenced work relationships?  As a manager, how important are generational differences at work?

5. How we can work together to enhance efficiency and effectiveness in the workplace?

Simulated Field

You will analyze the three videos located in the Readings and Resources for this assignment to gain insight into best practices in early childhood education by responding to reflection questions. Watch the videos and respond to the reflection questions.

Videos:

Simulated Field Experience Template

CHS199 Practicum 1

Name of Video #1:
1. Clearly state the purpose of the video.

 

 

 

 

 

2. Describe two accurate examples of developmentally appropriate practices that you observed in the video.

 

3. Share a quote from the video with a detailed explanation of why you agree or disagree with the statement.

 

4. Provide a detailed description of something you learned or how your opinion on something may have changed after watching the video.

 

 

 

 

 

 

5. Provide a detailed description of how something from the video could be applied in the classroom.

 

 

 

 

 

 

 

 

 

 

Name of Video #2:
1. Clearly state the purpose of the video.

 

 

 

 

 

2. Describe two accurate examples of developmentally appropriate practices that you observed in the video.

 

 

 

 

3. Share a quote from the video with a detailed explanation of why you agree or disagree with the statement.

 

 

 

 

 

4. Provide a detailed description of something you learned or how your opinion on something may have changed after watching the video.

 

 

 

 

 

 

 

5. Provide a detailed description of how something from the video could be applied in the classroom.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Name of Video #3:
1. Clearly state the purpose of the video.

 

 

 

 

 

2. Describe two accurate examples of developmentally appropriate practices that you observed in the video.

 

 

 

 

3. Share a quote from the video with a detailed explanation of why you agree or disagree with the statement.

 

 

 

 

 

 

4. Provide a detailed description of something you learned or how your opinion on something may have changed after watching the video.

 

 

 

 

 

 

 

5. Provide a detailed description of how something from the video could be applied in the classroom.

X Trench Run Game: Games Reviews

Take on the role of a brave galactic pilot in x trench run  as you fly through the trenches of the enemy space station, disabling defence turrets and laser fields. It is up to you to weaken the enemies defences, but beware, once you have caused enough damage, enemy fighter planes will be dispatched to deal with you. Space dogfights, blaster bolts and more in this addictive spacefaring game!

How To Play: Once in-game, you will be presented with a text prompt that will explain the controls of the game before starting. To move, use the WASD/arrow keys, with the W/up arrow to fly higher, and the S/down arrow to fly lower. To shoot, press Spacebar or your left mouse/trackpad key. For mobile players, use the touch controls displayed on your screen. Go forth and destroy all the defences and the fighter plane bosses!

Advanced Technology

Assignment:

Conclusions: Your thoughts on the implications of the concept you have described.

1) What does your work mean for the industry?

2) What implications it has for the future of the industry?

3) What is needed for your concept to succeed?

4) What are the limitations that need to be considered?

For Presentation:

1. Make presentation look nicer

2. Proof read Presentation

3. Make Shorter

4. Add conclusion to presentation

Abstract:   Proact Build is a unique Construction Intelligence Platform that integrates robots, AI-driven predictive analytics, and cutting-edge sensors to revolutionize the construction sector. Proactively anticipating and addressing mechanical and technical concerns in building projects is the goal of this innovative approach. The platform sends autonomous robotic inspectors with LiDAR, cameras, and thermal imaging to building sites to spot issues early. Advanced AI algorithms compare real-time data to design requirements and previous data to forecast faults. This enables immediate remedial measures by notifying stakeholders. This study efficiently solves construction industry inefficiencies, notably late-stage issue identification that delays and increases costs. Proact Build helps building firms, architects, government agencies, and environmental groups by proactively detecting difficulties. While reducing waste and optimizing resource consumption, the platform encourages environmentally responsible construction techniques that support economic growth, efficiency, and conservation. AI systems, robots, and next-generation sensors reduce the risk of late-project issue discovery. Proact Build strategically prioritizes MEP system O&M. Autonomous robotic inspection, thermal imaging, and AI algorithm analysis are used. The primary goals are to reduce costly repairs, optimize energy and resource use, increase safety, and offer fast MEP issue notifications. The extensive literature analysis examines building green technology. It showcases BIM, infrared thermography, and LiDAR’s revolutionary power. A thorough study may decrease resource use and carbon footprint and identify concerns before they become severe by incorporating these technologies. This study details the Proact Build concept’s development and analysis. The significant results include self-driving robotic inspection, infrared imaging, and real-time AI analysis. These advances prioritize dependability, punctuality, and resource efficiency, transforming the construction sector and laying the path for future advancements.

Information Systems IT Infrastructure Project: Designing LAN Networks Assignment

 

IT Infrastructure Project: Designing LAN Networks Designing LAN Networks

 

All labs must be submitted using the version of Packet Tracer in the online course/learning management system. Please do NOT use other versions of Packet Tracer to ensure licensing compliance and proper assessment/credit. In addition, please do NOT add users or passwords to any device, leave all credentials blank for assessment purposes. No compressed or zipped files will be received for credit, please submit each file individually.

 

Project Background

In this project you will study scholarly research on modern IT infrastructure design. You will apply the knowledge learned from your studies by designing and configuring a modern LAN network in Cisco Packet Tracer.

Reference the incomplete and faulty network architecture in Figure 1. Note, this design should not be copied in any form. Submitting a copied Figure 1 design will result in zero credit.

Friendly Care Hospital is one of the biggest hospitals in the U.S. It operates its own private cloud and does not use any third-party vendors for any of its networking or services. It owns all of its hardware in on-site on campus data centers and must continue to do so in the future. You have recently bought the hospital, naming it [Your Firstname Lastname] Hospital. For example, Jane Doe Hospital.

The hospital has recently expanded to another continent, Australia. The U.S. LAN and Australia LAN are connected. The LANs were connected using ISPs, VPNs, and WANs. However, the department staff sometimes faces long application delays during busy hours. For example, users experience regular delays in Internet connectivity, web services, and email services. You are tasked with the job of a complete computer network re-design that resolves these problems.

The 100% original and new design must support an enterprise network for over 2,000 devices that connects two corporate sites located in the U.S. and Australia. The new network design and associated Packet Tracer configurations must be supported by modern scholarly journal articles and relevant research.

Please read the instructions that follow and reference the grading rubric for guidance on successful completion.

Figure 1. Original but Flawed Friendly Care Hospital Network Design (Do NOT copy)

A picture containing text Description automatically generated

Figure 2. Compliant / Proper Screenshot

Instructions

 

Network Topology 1

*Note, this is an example for reference and NOT a proper solution. Do not copy this framework. A unique design is necessary by the student to meet the requirements.

 

A picture containing diagram, text, line, origami Description automatically generated

Figure 3. Cisco Hierarchical Design Layers (Bruno & Jordan, 2021)

 

 

Network Topology 2

*Note, this is an example for reference and NOT a proper solution. Do not copy this framework. A unique design is necessary by the student to meet the requirements.

 

A diagram of a computer network Description automatically generated with low confidence

Figure 4. Multi Building Design Example (Bruno & Jordan, 2021)

 

 

1) Please review the grading rubric to ensure requirements are met.

2) Figure 1 represents the two campus LANs within the introduction that require improvement.

3) A successful project will identify and apply modern designs to a new network topology with improved performance, fault tolerance, and high availability beyond the Cisco Hierarchical Design in figures 3 and 4. Research is necessary to accomplish this.

4) Using proper research and industry best practices, design and configure a new and improved fault tolerant and highly available local area network (LAN) topology that connects two large campuses with over 2,000 nodes.

5) Packet Tracer should include labeling with modern APA in-text citations of the supported frameworks, standards, and/or research results that validate the design, topology, and configurations. At least two (2) supporting design frameworks should be published within the last 5 years.

6) Minimally design and properly configure:

a) two (2) scalable local area networks (LANs) on two unique campuses in close proximity connected over fault tolerant routers

b) three (3) VLANs that operate across highly available LANs

c) for testing, add two (2) laptops on two (2) unique VLANs per switch minimum

d) two (2) fault tolerant internet service providers (ISPs)

e) minimum of one (1) fault tolerant, highly available, and scalable data center accessible over the Internet from both country sites

f) ensure the new data center design supports primary/example services such as DHCP servers, internal and external DNS services, email services, and web services

7) Design a new IP address table for all devices using any IP address in the 172.16.0.0/12 prefix range or 172.16.0.0 to 172.31.255.255. All addresses can be IPv4 or IPv6 for simplicity. Ensure subnets are efficient but also include sufficient IP designs for the number of future devices needed.

8) Add the necessary hardware using your first name and last name as a prefix. For example, if your name is “Amy Smith”, router one will be named: “R1_Amy_Smith”. Router 2 will be named “R2_Amy_Smith” and so on.

9) At the access or similar layer of the network topology, create three (3) or more VLANs. At the distribution or similar layer, ensure VLAN trunks and inter-VLAN routing is configured. Name the VLANs with your first name and last name and a department like human resources (HR) and sales. For example, if your name is “Amy Smith” they should be:

a) F0/1 is the native trunk for VLAN 99.

b) F0/7 – F0/18 as access ports in VLAN amysmith_HR.

c) F0/19 – F0/24 as access ports in VLAN amysmith_Sales.

10) At the proper layers of the new network design, configure OSPF, EIGRP, or a better protocol as the LAN protocol. The LAN protocol should be configured using current industry best practices to manage all LAN IP subnets.

11) Configure proper static routes to ISP devices.

12) In Packet Tracer, label with detail and add in-text citations. For example, label the network architecture layers, IP subnets, VLANs, and OSPF areas.

Validating Completion

1) Please review the grading rubric to ensure requirements are met.

2) Submit screenshots in the same Microsoft Word document as part 1.

3) Multiple routers/switches must be shown side by side to minimize the number of screenshots.

4) Show screenshots of the major protocols and connections functioning properly. All devices should be able to communicate.

5) Show troubleshooting steps that validate the proper operation of configurations such as VLANs and OSPF.

6) Validate and explain how you know your configurations are correct and working. Use compliant screenshots of each troubleshooting step used to validate. For example, how do you know OSPF neighbors are sending proper LSAs?