Canada Border Services Agency
The Canada Border Services Agency is a federal agency, responsible for border protection and surveillance, immigration enforcement and customs services in Canada. The CBSA is accountable to Parliament through the Minister of Public Safety and Emergency Preparedness; the CBSA was created on December 12, 2003, by an order-in-council amalgamating Canada Customs with border and enforcement personnel from the Department of Citizenship and Immigration Canada and the Canadian Food Inspection Agency. The Agency's creation was formalized by the Canada Border Services Agency Act, which received Royal Assent on November 3, 2005. Since the September 11 attacks against the United States, Canada's border operations have placed an enhanced emphasis on national security and public safety; the Canada–United States Smart Border Declaration, created by John Manley and Tom Ridge first U. S. Secretary of Homeland Security of the Department of Homeland Security, has provided objectives for co-operation between Canadian and American border operations.
The CBSA oversees 1,200 service locations across Canada, 39 in other countries. It employs over 12,000 public servants, offers around-the-clock service at 119 land border crossings and thirteen international airports, it works with the Department of Immigration and Citizenship to enforce Canada's immigration laws by facilitating the removal of inadmissible individuals from the country and assisting local police in the investigation of violations of the Immigration and Refugee Protection Act. The Agency oversees operations at three major sea ports and three mail centres, operates detention facilities known as immigration holding centres in Laval and Vancouver; the CBSA operates an Inland Enforcement branch, which tracks down and removes foreign nationals who are in Canada illegally. Inland Enforcement Officers are "plain-clothes" units, are armed with the same sidearm pistol as port of entry Border Services Officers. Prior to 2004, border security in Canada was handled by three legacy agencies: Canada Customs and Revenue Agency Citizenship and Immigration Canada Canadian Food Inspection AgencyThe CBSA was created in an attempt to address issues found in a review by the Auditor General, including an inability to share certain security information and shortcomings in inter-agency communication.
In addition to using generic identifiers imposed by the Federal Identity Program, the CBSA is one of several federal departments that have been granted heraldic symbols by the Canadian Heraldic Authority. The coat of arms was granted on June 15, 2010, presented by Her Majesty Queen Elizabeth II on July 6, 2010; the ceremony was the Queen's last function on her 2010 Canadian Royal Tour. In attendance were Governor General Michaëlle Jean and Prime Minister Stephen Harper. Use of the coat of arms is reserved for special occasions, it is associated with the office of the CBSA President; the heraldic badge was approved for use at the same time as the coat of arms. It portrays a gold tressure; the portcullis represents Her Majesty's agents responsible for border services. The Latin motto of Protectio Servitium Integritas translates as "Protection, Integrity"; the badge figures prominently in the television series Border Security: Canada's Front Line. A flag was approved for use on December 20, 2012, it is meant to resemble Canada's Blue Ensign, flown on government vessels prior to 1965.
Canada Customs officers, their successor officers of the CBSA during the latter's initial years, did not have firearms, instead relying on a local RCMP detachment to provide backup if armed force was required. Since the creation of the Agency in 2003, the CBSA has undergone significant changes to its overall structure, as services offered by different agencies are now housed under a single banner. Not only has the structure of the organization changed, but the range of duties and the institutional priorities have changed. Where the prior coupling of Canada Customs with the Canada Revenue Agency lent itself to a focus on tax collection, the new Agency was created to address heightened security concerns post-9/11, to respond to criticisms from the United States, that Canada was not doing enough to ensure the security of North America. Substantial changes began before the 2001 terrorist attacks in the United States. In May 1998, the Government of Canada passed an Act to amend the Customs Act and the Criminal Code, which changed agency policy to allow the officers to arrest and detain individuals at the border for non-customs related violations of Canadian law.
These new responsibilities led to the implementation of use of force policies. Border Services Officers across Canada started to carry collapsible batons, OC spray and handcuffs, although it was still several years before they would be equipped with firearms; the 2006 Canadian federal budget introduced $101 million to equip Border Services Officers with side arms and to eliminate single-person border crossings to help officers perform their duties. The decision to arm BSOs has been a subject of some controversy in Canada for several years since previous governments felt that unarmed officers made the country less intimidating to visitors, as opposed to the U. S. Customs and Border Protection, whose officers have carried side arms for decades. Supporters of arming BSOs said that this would help the CBSA shed its lax reputation an
Cookshire-Eaton is a city in the Estrie region of Quebec. It is the seat of Le Haut-Saint-François Regional County Municipality. Sherbrooke Airport is located there; as part of the 2000–2006 municipal reorganization in Quebec, on July 24, 2002 the city of Cookshire, the municipality of Newport and the township of Eaton were merged to form Cookshire-Eaton. After a 2004 referendum, Newport de-merged and was reconstituted as an independent municipality as of January 1, 2006. Newport and Cookshire-Eaton both remain part of the urban agglomeration of Cookshire-Eaton; the community had a population of 5,171 in the Canada 2011 Census. Media related to Cookshire-Eaton at Wikimedia Commons
Canada Flight Supplement
The Canada Flight Supplement is a joint civil/military publication and is a supplement of the Aeronautical Information Publication. It is the nation's official airport directory, it contains information on all registered Canadian and certain Atlantic aerodromes and certified airports. The CFS is published, separately in English and French, as a paper book by Nav Canada and is issued once every 56 days on the ICAO AIRAC schedule; the CFS was published by Natural Resources Canada on behalf of Transport Canada and the Department of National Defence until 15 March 2007 edition, at which time Nav Canada took over production. The CFS presents runway data and departure procedures, air traffic control and other radio frequencies and services such as fuel, hangarage that are available at each listed aerodrome; as well, the CFS contains useful reference pages, including interception instructions for civil aircraft, chart updating data and search and rescue information. Most pilots flying in Canada carry a copy of the CFS in case a weather or mechanical diversion to another airport becomes necessary.
The Canada Flight Supplement is made up of seven sections: Special Notices — list of new or amended procedures. General Section — glossary, airport code listing, list of abandoned aerodromes, other introductory information. Aerodrome/Facility Directory — list all aerodromes alphabetically by the community in which they are located. A sketch of the airport is included showing runway layout, locations of buildings and tower. Included in the sketch is an obstacle clearance circle. Planning — general flight planning information, including flight plans and position reports, lists of significant new towers and other obstructions, chart updating, preferred IFR routes, similar information. Radio Navigation and Communications — listing of radio navigation aids and communication outlets, together with all known commercial AM broadcasters and their locations and frequencies. Military Flight Data and Procedures — military flight and reporting procedures for Canada and the U. S. Emergency — emergency procedures and guidelines for hijacks, fuel dumping and rescue, etc.
Carrying "current aeronautical charts and publications covering the route of the proposed flight and any probable diversionary route" is a requirement under CAR 602.60 for night VFR, VFR Over-The-Top and instrument flight rules flights. This Canadian Aviation Regulation does not require carriage of a copy of the CFS, but, one way to satisfy the regulation; because information in the CFS may be out of date with regard to such issues as runway closures and fuel availability, pilots should check NOTAMs before each flight. NOTAM information in Canada can be obtained from the Nav Canada Aviation Weather Website or by contacting the appropriate regional Nav Canada Flight Information Centre. While Nav Canada's CFS has the monopoly on paper-version airport directories in Canada, there are several competing internet publications, including the Canadian Owners and Pilots Association's Places to Fly user-editable airport directory. Nav Canada publishes the Water Aerodrome Supplement, as a single volume in English and French.
This contains information on all Canadian water aerodromes as shown on visual flight rules charts and other information such as navaids. The WAS is published on an annual basis. Airport/Facility Directory – U. S. publications equivalent to the Aerodrome/Facility and Planning chapters of the CFS, but divided into several volumes covering different regions. Official website
According to the International Civil Aviation Organization, a runway is a "defined rectangular area on a land aerodrome prepared for the landing and takeoff of aircraft". Runways may be a natural surface. In January 1919, aviation pioneer Orville Wright underlined the need for "distinctly marked and prepared landing places, the preparing of the surface of reasonably flat ground an expensive undertaking there would be a continuous expense for the upkeep." Runways are named by a number between 01 and 36, the magnetic azimuth of the runway's heading in decadegrees. This heading differs from true north by the local magnetic declination. A runway numbered 09 points east, runway 18 is south, runway 27 points west and runway 36 points to the north; when taking off from or landing on runway 09, a plane is heading around 90°. A runway can be used in both directions, is named for each direction separately: e.g. "runway 15" in one direction is "runway 33" when used in the other. The two numbers differ by 18.
For clarity in radio communications, each digit in the runway name is pronounced individually: runway one-five, runway three-three, etc.. A leading zero, for example in "runway zero-six" or "runway zero-one-left", is included for all ICAO and some U. S. military airports. However, most U. S. civil aviation airports drop the leading zero. This includes some military airfields such as Cairns Army Airfield; this American anomaly may lead to inconsistencies in conversations between American pilots and controllers in other countries. It is common in a country such as Canada for a controller to clear an incoming American aircraft to, for example, runway 04, the pilot read back the clearance as runway 4. In flight simulation programs those of American origin might apply U. S. usage to airports around the world. For example, runway 05 at Halifax will appear on the program as the single digit 5 rather than 05. If there is more than one runway pointing in the same direction, each runway is identified by appending left and right to the number to identify its position — for example, runways one-five-left, one-five-center, one-five-right.
Runway zero-three-left becomes runway two-one-right. In some countries, regulations mandate that where parallel runways are too close to each other, only one may be used at a time under certain conditions. At large airports with four or more parallel runways some runway identifiers are shifted by 1 to avoid the ambiguity that would result with more than three parallel runways. For example, in Los Angeles, this system results in runways 6L, 6R, 7L, 7R though all four runways are parallel at 69°. At Dallas/Fort Worth International Airport, there are five parallel runways, named 17L, 17C, 17R, 18L, 18R, all oriented at a heading of 175.4°. An airport with only three parallel runways may use different runway identifiers, such as when a third parallel runway was opened at Phoenix Sky Harbor International Airport in 2000 to the south of existing 8R/26L — rather than confusingly becoming the "new" 8R/26L it was instead designated 7R/25L, with the former 8R/26L becoming 7L/25R and 8L/26R becoming 8/26.
Runway designations may change over time because Earth's magnetic lines drift on the surface and the magnetic direction changes. Depending on the airport location and how much drift occurs, it may be necessary to change the runway designation; as runways are designated with headings rounded to the nearest 10°, this affects some runways sooner than others. For example, if the magnetic heading of a runway is 233°, it is designated Runway 23. If the magnetic heading changes downwards by 5 degrees to 228°, the runway remains Runway 23. If on the other hand the original magnetic heading was 226°, the heading decreased by only 2 degrees to 224°, the runway becomes Runway 22; because magnetic drift itself is slow, runway designation changes are uncommon, not welcomed, as they require an accompanying change in aeronautical charts and descriptive documents. When runway designations do change at major airports, it is changed at night as taxiway signs need to be changed and the huge numbers at each end of the runway need to be repainted to the new runway designators.
In July 2009 for example, London Stansted Airport in the United Kingdom changed its runway designations from 05/23 to 04/22 during the night. For fixed-wing aircraft it is advantageous to perform takeoffs and landings into the wind to reduce takeoff or landing roll and reduce the ground speed needed to attain flying speed. Larger airports have several runways in different directions, so that one can be selected, most nearly aligned with the wind. Airports with one runway are constructed to be aligned with the prevailing wind. Compiling a wind rose is in fact one of the preliminary steps taken in constructing airport runways. Note that wind direction is given as the direction the wind is coming from: a plane taking off from runway 09 faces east, into an "east wind" blowing from 090°. Runway dimensions vary from as small as 245 m long and 8 m wide in s
VHF omnidirectional range
High Frequency Omni-Directional Range is a type of short-range radio navigation system for aircraft, enabling aircraft with a receiving unit to determine its position and stay on course by receiving radio signals transmitted by a network of fixed ground radio beacons. It uses frequencies in the high frequency band from 108.00 to 117.95 MHz. Developed in the United States beginning in 1937 and deployed by 1946, VOR is the standard air navigational system in the world, used by both commercial and general aviation. By 2000 there were about 3,000 VOR stations around the world including 1,033 in the US, reduced to 967 by 2013 with more stations being decommissioned with the widespread adoption of GPS. A VOR ground station sends out an omnidirectional master signal, a directional second signal is propagated by a phased antenna array and rotates clockwise in space 30 times a second; this signal is timed so that its phase varies as the secondary signal rotates, this phase difference is the same as the angular direction of the'spinning' signal.
By comparing the phase of the secondary signal with the master, the angle to the aircraft from the station can be determined. This line of position is called the "radial" from the VOR; the intersection of radials from two different VOR stations can be used to fix the position of the aircraft, as in earlier radio direction finding systems. VOR stations are short range: the signals are line of sight between transmitter and receiver and are useful for up to 200 miles; each station broadcasts a VHF radio composite signal including the navigation signal, station's identifier and voice, if so equipped. The navigation signal allows the airborne receiving equipment to determine a bearing from the station to the aircraft; the station's identifier is a three-letter string in Morse code. The voice signal, if used, is the station name, in-flight recorded advisories, or live flight service broadcasts. At some locations, this voice signal is a continuous recorded broadcast of Hazardous Inflight Weather Advisory Service or HIWAS.
Developed from earlier Visual Aural Radio Range systems, the VOR was designed to provide 360 courses to and from the station, selectable by the pilot. Early vacuum tube transmitters with mechanically-rotated antennas were installed in the 1950s, began to be replaced with solid-state units in the early 1960s, they became the major radio navigation system in the 1960s, when they took over from the older radio beacon and four-course system. Some of the older range stations survived, with the four-course directional features removed, as non-directional low or medium frequency radiobeacons. A worldwide land-based network of "air highways", known in the US as Victor airways and "jetways", was set up linking VORs. An aircraft can follow a specific path from station to station by tuning into the successive stations on the VOR receiver, either following the desired course on a Radio Magnetic Indicator, or setting it on a course deviation indicator or a horizontal situation indicator and keeping a course pointer centred on the display.
As of 2005, due to advances in technology, many airports are replacing VOR and NDB approaches with RNAV approach procedures. VOR signals provide greater accuracy and reliability than NDBs due to a combination of factors. Most significant is that VOR provides a bearing from the station to the aircraft which does not vary with wind or orientation of the aircraft. VHF radio is less vulnerable to diffraction around terrain coastlines. Phase encoding suffers less interference from thunderstorms. VOR signals offer a predictable accuracy of 90 m, 2 sigma at 2 NM from a pair of VOR beacons. VOR stations rely on "line of sight" because they operate in the VHF band—if the transmitting antenna cannot be seen on a clear day from the receiving antenna, a useful signal cannot be received; this limits VOR range to the horizon -- or closer. Although the modern solid state transmitting equipment requires much less maintenance than the older units, an extensive network of stations, needed to provide reasonable coverage along main air routes, is a significant cost in operating current airway systems.
VORs are assigned radio channels between 117.95 MHz. The first 4 MHz is shared with the instrument landing system band. To leave channels for ILS, in the range 108.0 to 111.95 MHz, the 100 kHz digit is always so 108.00, 108.05, 108.20, 108.25, so on are VOR frequencies but 108.10, 108.15, 108.30, 108.35 and so on, are reserved for ILS in the US. The VOR encodes azimuth as the phase relationship between a variable signal; the omnidirectional signal contains a modulated continuous wave 7 wpm Morse code station identifier, contains an amplitude modulated voice channel. The conventional 30 Hz reference signal is frequency modulated on a 9,960 Hz subcarrier; the variable amplitude modulated signal is conven
Nav Canada is a run, not-for-profit corporation that owns and operates Canada's civil air navigation system. It was established in accordance with the Civil Air Navigation Services Commercialization Act; the company employs 1,900 air traffic controllers, 650 flight service specialists and 700 technologists. It has been responsible for the safe and expeditious flow of air traffic in Canadian airspace since November 1, 1996 when the government transferred the ANS from Transport Canada to Nav Canada; as part of the transfer, or privatization, Nav Canada paid the government CA$1.5 billion. Nav Canada manages 12 million aircraft movements a year for 40,000 customers in over 18 million square kilometres, making it the world’s second-largest air navigation service provider by traffic volume. Nav Canada, which operates independently of any government funding, is headquartered in Ottawa, Ontario, it is only allowed to be funded by service charges to aircraft operators. Nav Canada's operations consist of various sites across the country.
These include: About 1,400 ground-based navigation aids 55 flight service stations 8 flight information centres, one each in: Kamloops – most of British Columbia Edmonton – all of Alberta and northeastern BC Winnipeg – northwestern Ontario, all of Manitoba and Saskatchewan London – most of Ontario North Bay – all of Nunavut and Northwest Territories, most of the Arctic waters Quebec City – all of Quebec, southwestern Labrador, tip of eastern Ontario, northern New Brunswick Halifax – most of New Brunswick, Nova Scotia, Prince Edward Island, most of Newfoundland and Labrador Whitehorse – northwestern British Columbia and all of Yukon 41 control towers 46 radar sites and 15 automatic dependent surveillance-broadcast ground sites 7 Area Control Centres, one each in: Vancouver – Surrey, BC Edmonton – Edmonton International Airport Winnipeg – Winnipeg-James Armstrong Richardson International Airport Toronto Centre – Toronto-Pearson International Airport Montreal Centre – Montreal-Trudeau International Airport Moncton – Riverview, New Brunswick Gander – Gander International Airport North Atlantic Oceanic control centre: Gander ControlNav Canada has three other facilities: National Operations Centre: Ottawa Technical Systems Centre: Ottawa The Nav Centre – 1950 Montreal Road in Cornwall, Ontario As a non-share capital corporation, Nav Canada has no shareholders.
The company is governed by a 15-member board of directors representing the four stakeholder groups that founded Nav Canada. The four stakeholders elect 10 members as follows: These 10 directors elect four independent directors, with no ties to the stakeholder groups; those 14 directors appoint the president and chief executive officer who becomes the 15th board member. This structure ensures that the interests of individual stakeholders do not predominate and no member group could exert undue influence over the remainder of the board. To further ensure that the interests of Nav Canada are served, these board members cannot be active employees or members of airlines, unions, or government; the company was formed on November 1, 1996 when the government sold the country's air navigation services from Transport Canada to the new not-for-profit private entity for CAD$1.5 billion. The company was formed in response to a number of issues with Transport Canada's operation of air traffic control and air navigation facilities.
While TC's safety record and operational staff were rated its infrastructure was old and in need of serious updating at a time of government restraint. This resulted in system delays for airlines and costs that were exceeding the airline ticket tax, a directed tax, supposed to fund the system; the climate of government wage freezes resulted in staff shortages of air traffic controllers that were hard to address within a government department. Having TC as the service provider, the regulator and inspector was a conflict of interest. Pressure from the airlines on the government mounted for a solution to the problem, hurting the air industry's bottom line. A number of solutions were considered, including forming a crown corporation, but rejected in favour of outright privatization, the new company being formed as a non-share-capital not-for-profit, run by a board of directors who were appointed and now elected; the company's revenue is predominately from service fees charged to aircraft operators which amount to about CAD$1.2B annually.
Nav Canada raises revenues from developing and selling technology and related services to other air navigation service providers around the world. It has some smaller sources of income, such as conducting maintenance work for other ANS providers and rentals from the Nav Centre in Cornwall, Ontario. To address the old infrastructure it purchased from the Canadian government the company has carried out projects such as implementing a wide area multilateration system, replacing 95 Instrument Landing System installations with new equipment, new control towers in Toronto and Calgary, modernizing the Vancouver Area Control Centre and building a new logistics centre Nav Canada felt the impact of the late-2000s recession in two ways: losses in its investments in third party sponsored asset-backed commercial paper and falling revenues due to reduced air traffic levels. In the summer of 2007 the company held $368 million in ABCP. On 12 January 2009 final Ontario Superior Court of Justice approval was granted to restructure the third party ABCP notes.
The company expects that the non-credit related fai
Quebec is one of the thirteen provinces and territories of Canada. It is bordered to the west by the province of Ontario and the bodies of water James Bay and Hudson Bay. S. states of Maine, New Hampshire and New York. It shares maritime borders with Nunavut, Prince Edward Island, Nova Scotia. Quebec is Canada's largest province by its second-largest administrative division, it is and politically considered to be part of Central Canada. Quebec is the second-most populous province of Canada, after Ontario, it is the only one to have a predominantly French-speaking population, with French as the sole provincial official language. Most inhabitants live in urban areas near the Saint Lawrence River between Montreal and Quebec City, the capital. Half of Quebec residents live in the Greater Montreal Area, including the Island of Montreal. English-speaking communities and English-language institutions are concentrated in the west of the island of Montreal but are significantly present in the Outaouais, Eastern Townships, Gaspé regions.
The Nord-du-Québec region, occupying the northern half of the province, is sparsely populated and inhabited by Aboriginal peoples. The climate around the major cities is four-seasons continental with cold and snowy winters combined with warm to hot humid summers, but farther north long winter seasons dominate and as a result the northern areas of the province are marked by tundra conditions. In central Quebec, at comparatively southerly latitudes, winters are severe in inland areas. Quebec independence debates have played a large role in the politics of the province. Parti Québécois governments held referendums on sovereignty in 1980 and 1995. Although neither passed, the 1995 referendum saw the highest voter turnout in Quebec history, at over 93%, only failed by less than 1%. In 2006, the House of Commons of Canada passed a symbolic motion recognizing the "Québécois as a nation within a united Canada". While the province's substantial natural resources have long been the mainstay of its economy, sectors of the knowledge economy such as aerospace and communication technologies and the pharmaceutical industry play leading roles.
These many industries have all contributed to helping Quebec become an economically influential province within Canada, second only to Ontario in economic output. The name "Québec", which comes from the Algonquin word kébec meaning "where the river narrows" referred to the area around Quebec City where the Saint Lawrence River narrows to a cliff-lined gap. Early variations in the spelling of the name included Kébec. French explorer Samuel de Champlain chose the name Québec in 1608 for the colonial outpost he would use as the administrative seat for the French colony of New France; the province is sometimes referred to as "La belle province". The Province of Quebec was founded in the Royal Proclamation of 1763 after the Treaty of Paris formally transferred the French colony of Canada to Britain after the Seven Years' War; the proclamation restricted the province to an area along the banks of the Saint Lawrence River. The Quebec Act of 1774 expanded the territory of the province to include the Great Lakes and the Ohio River Valley and south of Rupert's Land, more or less restoring the borders existing under French rule before the Conquest of 1760.
The Treaty of Paris ceded territories south of the Great Lakes to the United States. After the Constitutional Act of 1791, the territory was divided between Lower Canada and Upper Canada, with each being granted an elected legislative assembly. In 1840, these become Canada East and Canada West after the British Parliament unified Upper and Lower Canada into the Province of Canada; this territory was redivided into the Provinces of Quebec and Ontario at Confederation in 1867. Each became one of the first four provinces. In 1870, Canada purchased Rupert's Land from the Hudson's Bay Company and over the next few decades the Parliament of Canada transferred to Quebec portions of this territory that would more than triple the size of the province. In 1898, the Canadian Parliament passed the first Quebec Boundary Extension Act that expanded the provincial boundaries northward to include the lands of the local aboriginal peoples; this was followed by the addition of the District of Ungava through the Quebec Boundaries Extension Act of 1912 that added the northernmost lands of the Inuit to create the modern Province of Quebec.
In 1927, the border between Quebec and Newfoundland and Labrador was established by the British Judicial Committee of the Privy Council. Quebec disputes this boundary. Located in the eastern part of Canada, part of Central Canada, Quebec occupies a territory nearly three times the size of France or Texas, most of, sparsely populated, its topography is different from one region to another due to the varying composition of the ground, the climate, the proximity to water. The Saint Lawrence Lowland and the Appalachians are the two main topographic regions in southern Quebec, while the Canadian Shield occupies most of central and northern Quebec. Quebec has one of the world's largest reserves of fresh water, occupying 12% of its surface, it has 3 % of the world's renewable fresh water. Mor