Disaster backup/disaster recovery

Database backup
In information technology, backup is the process of copying and archiving the computer data so that one can use it to restore the original after an event of data loss occurs (Mullins, 2012). There are two distinct purposes of backups. One is to recover the data after its loss maybe because of data deletion or corruption. The data loss may be a common experience of the computer users. The second purpose of the backup is to recover the data from the earlier time according to the user-defined data retention policy. There are two divisions of the backups that include the logical and the physical backups (Dafoulas & Ward 2011). The logical backups usually contain the logical data from the database with the Oracle export utility. It is stored in a binary file so as to help in later re-importing to a database using the corresponding Oracle import utility. On the other hand, the physical backup refers to the backup of the physical files that is used for storing and also recovering databases such as the control files and the data files. It is a copy of the files storing database information to another location whether it is on offline storage or a disk.

The database backup tends to form a duplicate of the data when the backup is complete. With a backup, it is easy for an individual to recreate the whole database from the backup in just one step that involves restoring the database. During restoring, it is a process that involves overwriting the existing database or it may create a database in case it does not exist (Dafoulas & Ward 2011). During backup, it is a process that tends to use a lot of storage space for every backup, and it also requires more time so as to completely backup all the operations.

With the Oracle backup, the types of backups include the logical backup, cold backup, and the hot backups. The hot backup is a backup of the data while it is running. Oracle tends to have RMAN which usually ensures the success in the hot backup. A cold backup is a backup that involves the offline physical backup, which is a process that happens when the database is not operating. It is a type of backup that accommodates all of the essential data files and other database components (Snedaker, 2014). On the other side, the logical backup is that backup of the tablespace, schemas, and whole database. Since an organization has a large amount of data, it is essential for the database administrators to use the automatic backup utilities that are available in a database such as ORACLE.

Any of the backup strategies used tends to start with the data repository. The backup data should be stored and organized to a degree. Other types of data backups include the full backup, differential backup, incremental backup, and mirror backup. The differential backup is the backup that includes all the files that changed since the last full backup. The incremental backup is the backup including files that changed in the last backup process (Snedaker, 2014). The full backup refers to the initial process of the backup that includes all the files and folders. Mirror backup is the backup of all files of the data that changed since the last full backup.

Disaster planning
Disaster planning is important as it helps in ensuring the continuation of the business processes if a disaster happens. Disaster is a term that is relative since disasters tend to occur in varying degrees. Disaster planning is essential as it offers an effective solution to use in recovering all the vital business processes (Whitman et al. 2013). The disaster recovery plan tends to offer the procedures for handling emergency situations. In disaster planning, the plan must offer information for the proactive handling of the crisis and must include detailed procedures for communication, executives, investor relations, human resources, and technology management. The plan must also document the procedures, responsibilities, and the checklist to use in managing and controlling the situation following the crisis.

Disaster planning tends to offer a state of readiness that allows prompt personnel response after a disaster occurs. It tends to provide a more efficient and effective recovery process. A disaster recovery plan must be able to accomplish several objectives. These objectives include managing the recovery operation in an effective and organized manner, recovering information and data imperative to the operation of critical applications (Mullins, 2012). It should also assess the damage, repair damage, and activate the impaired computer center. Every business tends to have the responsibility of responding to short or long term disruption of the services. Developing, documenting, implementing and testing the disaster recovery plan enable the business to restore the availability of the critical applications in an organized and timely manner after the occurrence of a disaster.

The advantages of disaster planning are that it results in improved technology. An organization requires improving IT systems so as to support the recovery objectives that you develop in disaster planning. The attention that one pays to recoverability leads to making the IT systems more consistent with each other. Disaster planning also results to improved business process. Since the business processes tend to undergo analysis and scrutiny, the administrators may not help but find areas that need improvement (Whitman et al. 2013). Disaster planning also benefits the organization through fewer disruptions. Because of improved technology, the IT systems are more stable than in the past. When one make changes to the system architecture so as to meet the recovery objectives, the events that used to cause outage do not do so anymore. Disaster planning also offers a competitive advantage because having good disaster recovery plan provides the organization with bragging rights that cab outshines the competitors. Disaster recovery plan tends to allow the organization to claim higher reliability and availability of services.

During disaster planning, it is significant that one should define the strategy to follow when employing the required softness to ensure the principles of detection, prevention, and response to the disaster. Such a strategy tends to define the activities that people will participate in when a disaster occurs, and it has a plan for explaining how to conduct the activities. It is essential for the organization to set the priorities of the processes and operations that they should perform. A disaster recovery plan is essential for the company as it contains the action that will help reduce the impact of the disaster and enable the organization to resumes its operation as fast as possible (Schin, 2014). It is an important aspect of the organization because it helps the organization save a lot of costs that it would incur if it never had a disaster recovery plan.

Importance of integrating backups and disaster planning
Database recovery is an essential aspect of disaster recovery. The purpose of the database backup is so as to safeguard the data in the case that a disruptive event occurs. The disaster planning aims at safeguarding the data and also the physical devices. It is important to integrate database backups and disaster planning as they work as complementary to each other when both of them are not properly implemented. Integrating database backup and disaster planning are important as backup database help in deciding the data to keep a backup for, and disaster planning helps in selecting the suitable backup plan for the physical storage of the data (Schin, 2014). Disaster planning is important as it helps to pinpoint the likely areas for problems. During planning, one need to assign tasks to different people so that everyone can know what is expected of them. Then again, backing up data and storing the copy off site may help to ensure that if a disaster strikes, one can move on without a lot of disruption.

It is important to execute database backup and disaster planning effectively. Failure of effectively executing them can result in a lot of loss to the organization. Without good backup and disaster planning, the organization can lose essential data and even customer data that can be of negative impact on the company (Mullins, 2012). When the two are not properly integrated, it can cause confusion to workers in the organization when an event of disaster happens as employees will not understand what to do in such a situation. Therefore, the damage can be much when the plan and backup are not properly executed.

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.

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