Annex 2. Information document for type approval of a vehicle with respect to the installation of devices for indirect vision The following information, if applicable, shall be supplied in triplicate and include a list of contents. Any drawings shall be supplied in appropriate scale and in sufficient detail on size A4 paper or on a folder of A4 format. Photographs, if any, shall show sufficient details. General
Annex 2. Angles of geometric visibility The angles shown in these arrangements are correct for lamps to be mounted on the right side of the vehicle. Part A: Position, end-outline marker, stop, front and rear direction indicators, daytime running and front and rear parking lamps Figures A2-I: Angles of geometric visibility, horizontal and vertical Horizontal angles Vertical angles Table A2-1 Angles of geometric visibility, horizontal and vertical Lamp Minimum horizontal angles (inboard / outboard) Minimum vertical angles (above / below) Additional information Front direction indicator (1, 1a, 1b) 45°/80° (20°/80°) a 15°/15° (15°/5°) b - Rear direction indicator (2a, 2b) 45°/80° (20°/80°) a 15°/15° (15°/5°) b (5°/15°) c - Front/rear direction indicator (11, 11a, 11b, 11c, 12) 20°/80° 15°/15° (15°/5°) b - Front/rear position singular (MA, MR) 80°/80° 15°/10° (15°/5°) b - Front/rear position pair (MA, MR) 20°/80° 15°/10° (15°/5°) b - Stop singular (MS) 45°/45° 15°/10° (15°/5°) b - Stop pair (MS) 0°/45° 15°/10° (15°/5°) b - Front/rear position (A, R1, R2) 45°/80° (20°/80°) a 15°/15° (15°/5°) b (5°/15°) c - Front/rear parking (77R) 0°/45° 15°/15° (15°/5°) b - Front/rear end-outline marker (AM, RM1, RM2) 0°/80° 15°/15° (15°/5°) b (5°/15°) c - Stop lamp (S1, S2) 45°/45° (20°/45°) a 15°/15° (15°/5°) b (5°/15°) c - High mounted stop lamp (S3, S4) 10°/10° 10° / 5° - Daytime running lamps (RL) 20°/20° 10° / 5° - Notes to Table A2-1: a Reduced angles used only below the H-plane for lamps mounted with the H-plane below 750 mm. b For lamps to be installed with the H-plane of the lamp at a mounting height of less than 750 mm. c Optional lamps to be installed with the H-plane of the lamp at a mounting height of more than 2,100 mm. Part B: Side direction indicators and side parking lamps Figures A2-II Angles of geometric visibility, horizontal and vertical Horizontal angles Vertical angles Table A2-2 Angles of geometric visibility, horizontal and vertical Lamp Horizontal angles (A/B) Min. vertical angles (above/below) Additional information Side direction indicators (5) 5° / 55° 15° / 15° 15° / 5° b Horizontal angles apply to direction A Side parking a 0° / 45° 15° / 15° 15° / 5° b Horizontal angles apply to front and rear Notes to Table A2-2: a Side parking lamps are a combination of front and rear facing parking lamps b Reduced angles used for lamps mounted with the H-plane below 750 mm. Part C: Side marker lamps Figures A2-III Angles of geometric visibility, horizontal and vertic...
Annex 2. The Form to Notify the contracts connected between the (S) and the End-Use Customers For the End-Use Customer: .............................
Annex 2. Current status of HMIS systems and IT infrastructure from the point of view of DRG implementation 172. This Annex provides an overview of the current status of hospital management information systems, and the NCPHA, NHIF, and MOH information systems with respect to DRG implementation.
Annex 2. 1a The AOI effective as of the date of this Agreement* * Included as Exhibit 3.1 (previously filed)
Annex 2. Essential characteristics of the vehicle powered by an electric power train only and information concerning the conduct of tests The following information, when applicable, shall be supplied in triplicate and shall include a summary. If there are drawings, they shall be to an appropriate scale and show sufficient detail. They shall be presented in A4 format or folded to that format. In the case of microprocessor controlled functions, appropriate operating information shall be supplied.
Annex 2. Rules and Procedures for the Swiss-Slovak Cooperation Programme Annex 2 is an integral part of the Framework Agreement between the Swiss Federal Council and the Government of the Slovak Republic concerning the implementation of the Swiss- Slovak Cooperation Programme. Annex 2 defines the controlling at the Swiss-Slovak Cooperation Programme level, procedures at Project level, requirements for Project proposals, roles and responsibilities and special provisions for financial assistance. Rules and procedures for Block Grants, the Project Preparation Facility, the Technical Assistance Fund and the Scholarship Fund are defined in Annex 3.
Annex 2. Clause 1f): is standardized as follows:
Annex 2. Key sites for conservation of the species and their protection status34 IBA Site Code and Name Area (ha) SPA Ramsar Location Population size Year Season Accuracy Lat. Long. DENMARK DK120: Xxxxx Xxxxx 100,000 Yes 54°50 N 14°22 E 8,000 2008 P ESTONIA EE049: Irbe Strait (Riga Bay) 206,640 Kaugatoma-Xxx - EE0040441 Kura kurgu - EE0040434 57°49 N 21°51 E 30k – 700k 1993 W Good EE059: Pärnu Bay (Riga Bay) 109,330 Pärnu lahe - EE0040346 58°15 N 24°03 E 57k – 270k 1999 P Unknown EE063: Kahtla-Kübassaare (Riga Bay) 14,355 Kahtla-Kübassaare - EE0040412 Väinamere - XX0000000 58°25 N 23°08 E 50k – 195k 1996 P Unknown EE045: Nõva-Osmussaare 23,924 Nõva-Osmussaare - EE0040201 59°11 N 23°27 E 20k – 200k 1999 P Unknown EE070: Pakri 21,039 Pakri - XX0000000 59°21 N 24°13 E 59,100 1999 P Unknown FINLAND FI002: Käsivarsi fjelds 220,078 Käsivarren Erämaa - FI1300105 69°00 N 21°30 E 100 pairs 1996 B Medium FI045: Merenkurkku archipelago 223,652 Merenkurkun saaristo - FI0800130 Quark Archipelago 63°20 N 21°05 E 10k – 100k 1996 P Poor FI016: Sammutinjänkä- Vaijoenjänkä 51,750 Kaldoaivin Erämaa - FI1302002 69°25 N 27°30 E 1-11 pairs 1996 B Unknown GERMANY DE040: Pomeranian Bay 333,425 Pommersche Bucht - XX0000000 54°18 N 14°05 E 837,00035 1995 P Unknown 34 This list is derived from BirdLife International’s Important Bird Areas database (see xxxx://xxx.xxxxxxxx.xxx/datazone/species/factsheet/22680427/additional) and updated where new information was available. However, it is not comprehensive for every country and there is a need to more thoroughly review knowledge of key sites and their designation status (see Result 4).
Annex 2. The main objective of INOVAIR represents the creation of a centre of competence within the National Institute of Optoelectronics in the field of Research-Development for innovative services used in the 3D monitoring of the atmospheric parameters of a regional interest (air quality) and global (climatic parameters) with a commercial potential and transferable in economy. This centre will activate in the future to the transfer of knowledge and competences acquired at a national and international levels through the consortiums to which INOE belongs and it will make the connection with projects that are currently on- going at the institute. The specific objectives of INOVAIR are: - implementation up to the end 2011 of a package of working procedures (experimental measurements + development of data processing algorithms + modelling + interpretation and correlation of the results) for a complex study of the atmospheric processes that contribute to the climate change, by using the laser remote sensing combined with the diffusion models, transport and photo-chemistry of the pollutants; - increase with 10% in 3 years of the research-development capacity (scientific ISI quoted papers) of the laser remote sensing team of the host institute, by integrating an international expert that will complete and coordinate the existent research team at INOE. - Reaching up to the end of 2012 of the performance parameters required by EARLINET, AERONET and EUSAAR (the main components of GEOSS) to run the INOE laser remote sensing laboratory through: the modernization of the electric and climatization networks, - optimization of the LIDAR systems (2) in order to run automatically, to acquire performant computers (5) and servers (2) to stock, process and interpret the data; - Maintaining in the research filed and the intensive formation of the 5 existing researchers involved in the project and their promotion on high level research positions up to the end of the year 2012. - The creation of 2 new positions in the research activity within the host team (1 IT engineer position, 1 engineer position) and the recruitment of appropriately qualified specialists, and their formation to the specificity of an active remote sensing activity. - The participation of the host team as partner with full rights in at least 1 European FP7 research project, up to the end of the year 2012. - Negotiation and signing up to 2012 of at least 1 collaboration contract with an industrial partner, in order to ...
