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Alternative Assessment Instructions: Due date: 11th to 17th June Mode of submission: Online via turnitin File format: 1 Word or PDF file only Task 1 Essay Write an essay on evolution of databases post...

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Alternative Assessment Instructions: Due date: 11th to 17th June Mode of submission: Online via turnitin File format: 1 Word or PDF file only Task 1 Essay Write an essay on evolution of databases post year 2000, identify new technologies that are replacing RDBMS or other traditional approaches. Using a case study explain how these advanced database technologies are helping various industrial sectors for example, health care, retail or any specific domains within an industry like SCM or CRM. Word limit is 2000 words excluding references. Task 2 Case Study Bushfires are a widespread and regular phenomenon in Australia and have caused significant property damage and loss of both human and animal life. Several organisations are working to prevent and battle bushfires. RFS (NSW RURAL FIRE SERVICE) is a volunteer and community-based fire and emergency services organisation in NSW. Data and Information Management plays a critical role in planning and operations of RFS. RFS has three type of Brigades including Fire Brigade, Forest Industry Brigade, and Coastguard Brigade. Each Brigade has a number of members and no one can be a member of two or more brigades. Each member is either a paid staff or a volunteer. RFS needs to keep record of staff personal details of members including name, age, gender, address, contact details, … and their location. The members work in shifts. A shift consists of start and end time. The shifts do not overlap, but they are consecutive, i.e. there is a shift on at any given time and day. We are assuming that the model we are creating (and eventually the database we will design) covers some extended period of time. Each member will thus be assigned to many shifts in that period. RFS keeps record of its operations in the incidents including members and equipment involved, as well as the details of incident (e.g. type, location, date/time started, date time finished, …) Stations: RFS delivers services to the community through a network of rural, urban and integrated fire stations across NSW. RFS's fire stations are specifically designed to support and facilitate the emergency needs of the firefighters and to house our specialist vehicles and equipment. There’re three type of stations: · Integrated and career fire stations: Integrated and career stations include career firefighters who support local volunteers. RFS has 38 integrated and career fire stations typically servicing large urban centres and housing between 4-6 or more emergency vehicles. · Urban Fire Stations: There are 204 urban fire stations catering to the needs of larger brigades and including a 3-4 bay drive-through motor room, turn-out area, workshop, Breathing Apparatus cleaning room and drying room. · Rural Fire Stations: RFS has 951 rural fire stations typically housing 2-3 vehicles and brigade equipment. Trucks There are many different types of fire appliances in RFS’s fleet ensuring our firefighters can respond to different types of fires and other emergency incidents: · Tankers: RFS has over 1200 tankers in its fleet. Tankers come in 2-wheel drive and 4-wheel drive combinations and are designed to carry a large water tank (up to 3000 litres) as well as a pump. Operational equipment such 2 as hoses, nozzles, standpipes, breathing apparatus, axes and other hand tools are stowed in lockers on the vehicle. Tankers are generally used in bushfires as the water can be carried to where it is required and then used at the fire ground to extinguish the fire. The pump on a tanker runs independently, so that the truck can drive around and extinguish the fire. · Pumpers: RFS has over 200 pumpers currently in supply. As the name implies, pumpers are equipped with a large pump capable of pumping thousands of litres of water per minute, some up to 4000 litres per minute. Pumpers are generally used in an urban environment to fight structure fires, as they require a reticulated or static water supply (e.g.: a dam) to operate. Pumpers are also equipped with an extensive inventory of operational equipment including hoses, nozzles, ladders, breathing apparatus, chemical protection suits and other firefighting gear, stowed in lockers on board the pumper. Pumpers carry some water, up to 2000 litres, but because their pumps are so large, they need the truck engine to run them, so pumpers operate only when they are parked. · Aerial appliances: ‘Aerial’ appliances are not aircraft. They are fire trucks equipped with a long extension ladder, or in some cases a hydraulic platform (like a massive “cherry picker”), capable of reaching several storeys in the air. From these heights firefighters are able to conduct rescues from upper floor windows and are also able to send water down onto the fire from hoses built into the ladder or platform system. Some aerial appliances are equipped with their own pump that can hook directly into the reticulated water supply to deliver water direct to the hose located at the end of the extension ladder or platform. Other aerial appliances have no pump and require a pumper to attend the fire scene to pump the water from the mains water supply to the aerial appliance. RFS has seven aerial appliances in its truck fleet, these being strategically located in outer metropolitan Melbourne and in provincial cities such as Ballarat and Bendigo. · All Terrain: RFS have three all-terrain vehicles. These fire trucks are stationed at ski resorts and have caterpillar treads instead of wheels to provide over-snow firefighting capability during the winter months. All-terrain vehicles have a similar operating capacity to pumpers. · Rescue Vehicles RFS has 26 rescue units that are predominantly used to rescue people involved in car accidents. Rescue units are equipped with a large array of rescue equipment including the “jaws of life”, which is designed to free people trapped in their car following a road accident. In many instances rescue units are also equipped to carry out other forms of rescue including industrial accidents and high angle (e.g. Window cleaners caught on the sides of high-rise buildings). · Hazardous Materials Incident Units (HazMat Van): There are nine hazardous material incident units that are used at incidents where chemicals and other hazardous substances are present. They carry an array of equipment that can be used to dam and contain chemical spills and clean up the contaminated area. Units are also equipped with decontamination showers for firefighters involved in the incident. These showers hose off chemicals the firefighters may have been exposed to when wearing their chemical protection suits. · Mobile Communications Vehicles (MCV’s): RFS’s fleet of mobile communications vehicles are used to assist communications and incident management at large and/or protracted incidents. MCVs are equipped with extensive radio communications equipment, also have computers, faxes, photocopiers and whiteboards that are useful tools for incident management. · Quick Attacks: RFS’s 21 quick attack vehicles are used in built-up areas to provide a quick initial firefighting response. They have a small tank (500 to1500 litres) and pump and are especially suited for hard to access areas. · Protective Equipment Units (PE Vans): There are four protective equipment units that are used to support incidents. PE Units carry additional breathing apparatus, including specialised oxygen breathing apparatus for long duration incidents such as shipboard and mine rescue, and a compressor to refill used air cylinders. There are also splash suits and gas suits that are used in hazardous materials incidents. RFS keeps record of truck details such as make, model, make year, …. For more information about the RFS mission and activities, and data/information requirement refer to the RFS website (https:// Data Model has been provided below to help you write SQL statements · Write create table statements for above tables. Make sure primary key, foreign key, not null and other constraints are included in table creation scripts. 5 Marks · Write insert statements to populate these tables with sample data. Create data which will meet the relational requirements. 5 Marks · As part of audit requirements, it is required to generate the below reports. The supervisor has once again asked you for help: Each 2 marks · Details of incidents and the list of staff members who were involved with those incidents. · Details of Trucks that were used while responding to incidents. · Details of staff members along with the details of shifts they’ve worked. · Details of which brigade and stations have access to which vehicles. · Count of members in every brigade · Count of members in every station · Count of vehicles in every station by type · Count of incidents that involved more than 2 members · Count of vehicles used in responding to incident by type of vehicle · Count of members who are working more than 5 shifts in a week Note: Create ONE document for essay and query, Task 1 and 2. Paste the query and screenshots from SQL Server in the document.
Answered Same Day Jun 16, 2021


Neha answered on Jun 17 2021
136 Votes
select IncidentType,StartDate, StartTime, FinishDate, FinishTime, FirstName, LastName, DOB, street,city,MemberState, PostCode, gender, BrigadeId, StationId, MemberType
from incidents I
inner join IncidentMember IM on IM.IncidentId = I.IncidentId
inner join Members M on M.MemberId = IM.MemberId
select IncidentType,StartDate, StartTime, FinishDate, FinishTime, TruckTypeId, Make, Model, MakeYear, StationId, Capacity
from incidents I
inner join IncidentTruck IT on IT.IncidentId = I.IncidentId
inner join Trucks T on T.TruckId = IT. TruckId;
Select ShiftStart, ShiftEnd, FirstName, LastName, DOB, street,city,MemberState, PostCode, gender, BrigadeId, StationId, MemberType
from Members
Inner join MemberShift MS on MS.MemberId = Members.MemberId
Inner join Shifts SH on SH.ShiftId = MS.ShiftId;
Select TruckTypeId, Make, Model, MakeYear, Capacity, StationType, BuildDate,StationStreet,StationCity from Trucks
inner join Stations on Stations.StationId = Trucks.StationId;
Select count(MemberId) As NumberOfMembers, BrigadeId from Members
group by BrigadeId;
Select count(MemberId) As NumberOfMembers, StationId from Members
group by StationId;
Select count(TruckId) as NumberOfTrucks, TruckTypeId, StationId from Trucks
group by TruckTypeId, StationId;
Select count(MemberId) As NumberofMember from Incidents
inner join IncidentMember IM on IM.IncidentId = Incidents.IncidentId
group by MemberId having count(MemberId >1);
Select count(Trucks.TruckId) As NumberOfTrucks from Trucks
inner join IncidentTruck IT on IT.TruckId = Trucks.TruckId
group by TruckTypeId;
Select count(MemberId) As NumberofMembers from MemberShift
group by MemberId having count(ShiftId) > 4;
create table Brigade(
    BrigadeId int primary key auto_increment,
    BrigadeName varchar(60),
    BrigadeType varchar(50)
insert into...

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