Gaining Practical Workplace Knowledge Through Work And Study

Freddy Romero has a dream of owning his own business. Originally from Colombia, he is currently pursuing a Diploma in Business Administration in International Trading at a Toronto career college. With an undergraduate degree in Mechanical Engineering and a post-graduate degree in Supply Chain Management, Romero knows there are several stepping stones ahead on the path to achieving his dream. One day, he hopes to own an international trade organization. So, when a part-time employment opportunity opened up in his college’s International Admissions Department, Romero knew he had to apply.

He originally heard about the on-campus employment opportunity through administrative staff. After submitting his application by email, Romero took part in a telephone interview and in-person interview before being offered the position that same week. “Now, working in the International Admissions Department, I get to help international students like myself who want to study,” he says.

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The part-time position focuses on data entry and database management. Romero ensures international students have accurate documents for college application-a process he went through himself earlier this year. Now, he’s committing 20 hours per week to the position, working five four-hour shifts per week. After each shift, Romero has a three-hour window of time to study before his classes begin for the day. “I have just enough time to work and to study,” he says.

At many career colleges, part-time job opportunities are available for students on-campus. By going through a real-world job application and interview process, students are able to put into practice the career skills learned in the classroom. Through on-campus employment, students are also able to gain additional work experience and enhance their skills. Both of which will make them more employable upon graduation.

Thinking ahead to his career goals in entrepreneurship, Romero says his on-campus job is giving him practical tools to deal with administrative processes. “I can match what I’m learning in my studies with real processes in an office,” he says.

When asked if he would encourage other college students to apply for on-campus employment opportunities, Romero is eager to say yes. “It’s very important to match theory with practice, he says. “I now have the opportunity to practice the subject I’m learning in my studies with this job; I can apply in real life what I’m learning in the classroom.”

In addition, he says there are personal benefits to his on-campus job. “It’s good to know I can work and study in the same place,” he says. “I am saving time and money, and I am growing in an academic environment.”

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For fellow students hoping to land a similar position, Romero advises that they must be honest and responsible, and be sure to indicate all of their experience in their job application.

“This kind of opportunity is good for improving many skills: communication, decision making, use of a second language, planning, adaptability and teamwork,” he says.

Evergreen College is focused on diploma and certification programs that are designed to fill needs in today’s job market. By employing students on-campus during their student, the college couples classroom learning with real-world experience. The success of students and graduates is paramount. College services are tailored to ensure stands by students every step of the way to get they the career and the future they’ve always wanted.

Waste Water and Sewage

Executive Summary
The ICS project provides the solution to the Waste, Water and the Sewage systems through the provision of remote and local control of the movement of the turbulence of the liquid and aqueous solutions. The ICS system incorporates the combination of different integrated systems that control pressure regulates the speed as well as controlling the gate valves in water catchment areas. The ICS system implements the SCADA technology to take the digital management and control of the wastewater and the sewage. The SCADA technology applies the sensor approach methodology whereby the sensor mechanism gets involved in managing and controlling the intake and the pumps used at the various points in the industrial system. The gadgets controlled include the water pumps the distributors and the purifying centers. The SCADA automates the process of the water supply to enhance proportional distribution of water in industries, factories, urban centers, rural areas, the domestic utilization and the agricultural operations like irrigation. The ICS-SCADA system gets applied in the Waste and Sewage system control and disposal. The SCADA systems monitor the discrete data and information concerning the entry of the waste material within the conduit pipes. The applications of the SCADA in the ICS include the pressure hydraulic pumps utilized in the boreholes gas and oil distributing industries.

ICS Industry Architecture Being Designed
The ICS system shall incorporate the utilization of the hardware and the software integration of materials and components. The structure and the design of the ICS-SCADA system shall include the user interface architectural design, the backend and the front end operation interface. The ICS-SCADA systems architecture incorporates the relational and the non-relational database design. The design of the ICS-SCADA control and management structure shall implement the three tires and the two tire client-server based systems to ensure multiple computer-based operations. The system hardware and software components include the dedicated Remote Terminal Units (RTU) and the Radio Telemetry Units for running and controlling the control algorithms for the flow control (Brodsky, & Radvanovsky, 2011). The architecture also incorporates the input and the output systems for the displaying of the graphics, charts and diagrams for the monitored and analyzed values. The video display monitors and the telnet oriented video conferencing system shall get embedded in different terminals to enhance the remote and local troubleshooting and diagnosing of the entire system. The ICS-SCADA system shall incorporate the electromagnetic field sensors for the detection of flaws and dangers imposed within the system to relay the alarms and notifications to end users. The system architecture shall incorporate the installation of the storage devices interlinked with the data and information repository backup systems. The storage system shall implement the VMware cloud computing system to facilitate the storage of data and information for the future decision making. The ICS-SCADA system architecture shall take into consideration the installation and embedding of the artificial intelligent systems to enhance big data analysis as well as data mining and data warehousing for the waste, water, and the sewage control.

1. Overview

The SCADA project shall implement the Redundant Fiber Optic and the Ethernet network. The system shall use the Node system of linking the World Wide Web interface. The proposed SCADA system within the Waste, Water and the Sewage system shall involve the replacement of the Unix SCADA systems with the improved redundant SCADA systems. The project team shall design a comprehensive system that incorporates the mesh network topology. The network topology shall link over 5000 data points using the SCADA System and connect the complete installation and integration of the control systems (Brodsky, & Radvanovsky, 2011).

2. Statement of Need
The government and the water treatment center shall provide the solution to the general public industries and the agricultural sectors through the installation of the water treatment points and plants in different stages. The current problem of impure water requires the application of the sewers and the pump stations in the water treatment and catchment areas. The solution on the waste dumping and flow require the installation of the waste and water treatment plant at various points of water flow. The sewage control and management problem require the implementation of the ICS-SCADA sludge treatment plant in the urban and the industrial areas (Pramod, et al…, 2013). The various treatment points require monitoring of flow turbulence to regulate the speed and pressure of the materials on the transit network.

3. Detailed Description
The ICS-SCADA system shall incorporate the operational interfaces that gather and conduct the entire system control at the various routes and the section of the interface. The operational strategies shall incorporate the implementation of the SCADA Human Machine Interface (HMI) (Dzung, et al…, 2005). The system shall get embedded to the network terminals and the links to facilitate easier reading and interpretation of data and information. The system shall apply the simplified user capabilities over the entire system that guarantee operational and implementation friendly.

ICS Network Architecture
The main physical and logical devices implemented in the ICS-SCADA system involve the processors, the controllers, and the RTU’s. The entire system shall incorporate the connection of the devices via the neutral fiber optic and the Ethernet network. The processing unit shall manage and control the input and the output materials within the SCADA systems. The controllers shall include the Programmable Logic Control (PLC) responsible for automation of observing and analyzing of data and information (IEEE Guide for the Commissioning of Electrical Systems in Hydroelectric Power Plants, 1998). PLC allows easy programming of different applications. The Physical Control Systems (PCS) controls the movement of materials by regulating the speed and pressure. The Remote Terminal Units (RTU’s) have the responsibility for facilitating synchronization between pumps and the sensor mechanisms. The RTU’s adjusts the data and information according to the analysis within the system.

1. Physical and Logical Designs
The relay of data and information shall get implemented through the user of radio frequency signals. The satellite technology shall get combined with the Ethernet and the optical fibers. However, the entire system shall highly apply the peer to peer communication with the establishment of sessions to ensure secure systems (Dzung, et al…, 2005). The system shall mitigate dangers concerned with the interception, hacking and intruder attacks.

2. Protocols
The ICS-SCADA devices utilize different types of protocols as listed below DNP3, Fieldbus, Modbus, and Ethernet (Johnson, & 2010 International Conference on Internet Technology and Secured Transactions2010).

3. Devices

Open ports

8080 with Ethernet and serial bus

Controls the input and output of data and information. enhance the encryption and decryption of data and information

Enable user to add use the authentication and verification protocols


8080, RS 232/422/485 with application of the SMTP, the TCP/ IP and physical connection of the serial bus and RJ – 45

The PLC is responsible for controlling and managing the input and the output ports. The device has responsibility for enhancing crossed cryptography schemes.

Enable the administrator to control the local server, the Ethernet server, the system server and the SCADA control server


502, 80 and utilizes the OPC, TCP/IP and the Modbus. The physical connection implemented includes the use of the Ethernet, the fiber optic cables with the use of the RJ -45

The HMI provides the friendly user interface.

Allow enabled dial up modem interfacing on local server

Open port include RS 23 and uses the Modbus, DNP3 and the Ethernet as well as the universal serial bus and the field bus

Provides the control of the Ethernet networks and the user fiber optic cable network

Allow the administrator to control the server and the data base systems.

Table 1: Devices
ICS Security Architecture
The ICS-SCADA system utilizes the software and the hardware firewall to secure the network. The SCADA systems also implement the Intruder Prevention System IPS and the Intruder Detection System (IDS) for securing the system from attack by the intruders and the hackers (Brodsky, & Radvanovsky, 2011). Other security devices include the virtual private networks (VPN) and the demilitarized zone (DMZ).

Promark Smartboards: Revolutionizing Interactive Learning and Collaboration

In today’s fast-paced and technology-driven world, traditional teaching tools are being supplemented, and often replaced, by advanced digital solutions. Among these innovations, Promark Smartboards stand out as a significant advancement in interactive learning and collaboration. These sophisticated tools offer a plethora of features that enhance educational environments and business settings alike, fostering a more engaging and efficient way to share information and ideas.

A Leap in Educational Technology

Promark Smartboards represent a considerable leap in educational technology. Unlike conventional whiteboards, these smartboards integrate digital and physical interaction, allowing educators to create a more immersive and interactive learning experience. Teachers can display digital content directly from their computers, annotate it in real-time, and save these annotations for future reference. This capability not only streamlines lesson delivery but also enhances student engagement by making lessons more dynamic and interactive.

One of the key benefits of Promark Smartboards in education is their ability to cater to various learning styles. Visual learners benefit from the vivid displays and multimedia capabilities, auditory learners from integrated audio features, and kinesthetic learners from the tactile interaction with the board. The smartboard’s interactive nature encourages students to participate actively, which can improve retention and understanding of complex subjects.

Enhancing Collaboration in Business

In the corporate world, Promark Smartboards are transforming how teams collaborate. These smartboards support a range of collaborative tools that are essential in modern workplaces. For instance, during meetings or brainstorming sessions, team members can interact with the smartboard simultaneously, sharing ideas, making annotations, and organizing thoughts in real-time. This fosters a more collaborative and inclusive environment where every participant can contribute effectively.

Moreover, Promark Smartboards come equipped with features that integrate seamlessly with other digital tools commonly used in businesses, such as video conferencing software, project management applications, and cloud storage services. This integration ensures that information shared during meetings is easily accessible and can be reviewed or edited later, enhancing productivity and collaboration even after the meeting has ended.

Advanced Features and User-Friendly Design

Promark Smartboards are designed with advanced features that make them both powerful and user-friendly. They typically include multi-touch capabilities, allowing multiple users to interact with the board simultaneously. This is particularly useful in both educational and business settings where collaboration is key. The boards also feature high-resolution displays that ensure clarity and readability, whether displaying detailed graphs or high-definition videos.

Another standout feature is the seamless connectivity with various devices, including laptops, tablets, and smartphones. This cross-platform compatibility means that users can easily share content from their personal devices onto the smartboard, facilitating a smoother and more integrated workflow. Additionally, the intuitive interface of Promark Smartboards ensures that even those with minimal technical expertise can operate them effectively, reducing the learning curve and maximizing utility.

The Future of Interactive Technology

The impact of Promark Smartboards extends beyond their immediate functionality. They represent a shift towards more interactive and technology-integrated environments. As educational institutions and businesses continue to adopt these smartboards, the future promises even greater innovations in interactive technology. Potential developments could include enhanced artificial intelligence features, more sophisticated data analysis tools, and further integration with emerging technologies such as virtual and augmented reality.

In conclusion, Promark Smartboards are a significant advancement in interactive technology, offering a host of features that enhance learning and collaboration. In educational settings, they cater to diverse learning styles and engage students more effectively. In business environments, they facilitate better collaboration and productivity. With their advanced features and user-friendly design, Promark Smartboards are not just a tool but a catalyst for a more interactive and efficient future. As technology continues to evolve, these smartboards will undoubtedly play a crucial role in shaping the way we learn and work.