这把刀确实不错
2010年1月21日星期四
威客--任务中国
http://www.taskcn.com/
找人帮你做事?
任务中国(TaskCN.com),是一个为消除劳务信息的地域差异、为广大有能力威客们建立的2010年后主流工作平台之一,创办至今均采用实名注册制。任务中国致力于帮助雇主们(中小企业和个人)将主营业务以外的项目找到适合的威客合理的完成,并为广大社会闲余劳动力创造工作机会。
北京亿信互动网络科技有限公司是由多家业界领先的公司共同投资的互联网高新技术企业,在北京市海淀区工商局注册,注册资金1,000,000人民币,已获中关村高新技术企业证书、信息产业部批准的电信增值业务运营许可证。团队核心成员均曾在国内著名的IT外资企业担任重要的职位。我们的主要客户群体为中小企业者、高级白领、自由职业者等各界人士,作为真实可靠的实名制网站,雇主与威客之间可以在这里通过任务的形式进行交易,任务款可以通过“任务宝”的第三方存管功能得到100%保障,威客们还可通过任务中国将自身能力展示出来以吸引雇主直接在线雇佣。
任务中国的用户被划分为雇主和威客两种: 雇主:是有需求等待实现的人群; 威客:是自由职业者、工作室或中小企业,在任务中国上为雇主解决需求的人群。
我们极其注重网络安全和诚信机制,本站所有参与任务的威客们均通过身份证、银行卡或企业营业执照的实名认证,确保雇主的权益。
目前任务中国将任务划分为订金和全款悬赏两类,对雇主而言: 一、如果您希望: 1、托管订金发布任务招标; 2、选最佳投标人独家承接; 3、对任务结果满意再付款; 4、可以一次或分期付款。 那么您可以发布订金招标任务来解决您的需求,一般来说招标任务的金额介于2,000-50,000元人民币不等。 适合发布订金招标任务的项目类型举例:大型网站建设、大型程序/软件开发等等...... 建议您通过任务中国实名认证或者企业认证后托管订金后发布任务,对方案和威客满意后再通过任务宝付款。 二、如果您希望: 1、托管全额任务款发布任务; 2、多位威客同时完成您发布的任务,提供多个最终结果供选择,对比多个最终结果,选择最满意的承接人中标。 那么您可以发布全款悬赏任务来解决您的需求,一般来说全款悬赏任务介于100-25,000元人民币不等。 适合发布全款悬赏任务的任务类型举例:标志/Logo设计、广告/包装设计、网页设计、企业成套VI、活动策划、翻译、标语/起名等......
对威客们来说,通过实名认证只是一个开端,完善您的个人资料、服务空间将让您获得更多雇主的青睐,在线IM和联系电话是雇主联系到您的最重要的方式。任务中国数据表明,获得收入前1000名威客中,资料和服务空间完整者占86%。
找人帮你做事?
任务中国(TaskCN.com),是一个为消除劳务信息的地域差异、为广大有能力威客们建立的2010年后主流工作平台之一,创办至今均采用实名注册制。任务中国致力于帮助雇主们(中小企业和个人)将主营业务以外的项目找到适合的威客合理的完成,并为广大社会闲余劳动力创造工作机会。
北京亿信互动网络科技有限公司是由多家业界领先的公司共同投资的互联网高新技术企业,在北京市海淀区工商局注册,注册资金1,000,000人民币,已获中关村高新技术企业证书、信息产业部批准的电信增值业务运营许可证。团队核心成员均曾在国内著名的IT外资企业担任重要的职位。我们的主要客户群体为中小企业者、高级白领、自由职业者等各界人士,作为真实可靠的实名制网站,雇主与威客之间可以在这里通过任务的形式进行交易,任务款可以通过“任务宝”的第三方存管功能得到100%保障,威客们还可通过任务中国将自身能力展示出来以吸引雇主直接在线雇佣。
任务中国的用户被划分为雇主和威客两种: 雇主:是有需求等待实现的人群; 威客:是自由职业者、工作室或中小企业,在任务中国上为雇主解决需求的人群。
我们极其注重网络安全和诚信机制,本站所有参与任务的威客们均通过身份证、银行卡或企业营业执照的实名认证,确保雇主的权益。
目前任务中国将任务划分为订金和全款悬赏两类,对雇主而言: 一、如果您希望: 1、托管订金发布任务招标; 2、选最佳投标人独家承接; 3、对任务结果满意再付款; 4、可以一次或分期付款。 那么您可以发布订金招标任务来解决您的需求,一般来说招标任务的金额介于2,000-50,000元人民币不等。 适合发布订金招标任务的项目类型举例:大型网站建设、大型程序/软件开发等等...... 建议您通过任务中国实名认证或者企业认证后托管订金后发布任务,对方案和威客满意后再通过任务宝付款。 二、如果您希望: 1、托管全额任务款发布任务; 2、多位威客同时完成您发布的任务,提供多个最终结果供选择,对比多个最终结果,选择最满意的承接人中标。 那么您可以发布全款悬赏任务来解决您的需求,一般来说全款悬赏任务介于100-25,000元人民币不等。 适合发布全款悬赏任务的任务类型举例:标志/Logo设计、广告/包装设计、网页设计、企业成套VI、活动策划、翻译、标语/起名等......
对威客们来说,通过实名认证只是一个开端,完善您的个人资料、服务空间将让您获得更多雇主的青睐,在线IM和联系电话是雇主联系到您的最重要的方式。任务中国数据表明,获得收入前1000名威客中,资料和服务空间完整者占86%。
2010年1月20日星期三
常用古诗词--140句
1、知我者,谓我心忧,不知我者,谓我何求。(诗经王风黍离)
2、人而无仪,不死何为。 (诗经风相鼠)
3、言者无罪,闻者足戒。 (诗经大序)
4、他山之石,可以攻玉。 (诗经小雅鹤鸣)
5、投我以桃,报之以李。 (诗经大雅抑)
6、天作孽,犹可违,自作孽,不可活。 (尚书)
7、满招损,谦受益。 (尚书大禹谟)
8、从善如登,从恶如崩。 (国语)
9、多行不义必自毙。 (左传)
10、居安思危,思则有备,有备无患。 (左传)
11、人非圣贤,孰能无过?过而能改,善莫大焉。 (左传)
12、知人者智,自知者明。 (老子)
13、信言不美,美言不信。 (老子)
14、祸兮福之所倚,福兮祸之所伏。 (老子)
15、合抱之木,生于毫末;九层之台,起于累土;千里之行,始于足下。(老子)
16、敏而好学,不耻下问。 (论语公冶长)
17、己所不欲,勿施于人。 (论语颜渊)
18、工欲善其事,必先利其器。 (论语卫灵公)
19、君子坦荡荡,小人长戚戚。 (论语述而)
20、岁寒,然后知松柏之后凋也。 (论语子罕)
21、学而不思则罔,思而不学则殆。 (论语为政)
22、知者不惑,仁者不忧,勇者不惧。 (论语子罕)
23、人谁无过?过而能改,善莫大焉。 (论语)
24、知之为知之,不知为不知,是知也。 (论语为政)
25、知之者不如好之者,好之者不如乐之者。 (论语雍也)
26、其身正,不令而行;其身不正,虽令不从。 (论语子路)
27、三人行,必有我师焉:择其善而从之,其不善者而改之。(论语述而)
28、大道之行,天下为公。 (礼记礼运)
29、凡事预则立,不预则废。 (礼记中庸)
30、学然后知不足,教然后知困。 (礼记学记)
31、玉不琢,不成器;人不学,不知道。 (礼记学记)
32、路漫漫其修远兮,吾将上下而求索。 (屈原离骚)
33、尺有所短,寸有所长。 (楚辞卜居)
34、尽信书,不如无书。 (孟子尽心下)
35、生于忧患,死于安乐。 (孟子告子下)
36、得道多助,失道寡助。 (孟子公孙丑)
37、民为贵,社稷次之,君为轻。 (孟子尽心上)
38、穷则独善其身,达则兼济天下。 (孟子尽心上)
39、天时不如地利,地利不如人和。 (孟子公孙丑)
40、富贵不能淫,贫贱不能移,威武不能屈。 (孟子滕文公)
41、锲而不舍,金石可镂。 (荀子劝学)
42、吾生也有涯,而知也无涯。 (庄子养生主)
43、君子之交淡如水,小人之交甘若醴。 (庄子)
44、博学之,审问之,慎思之,明辨之,笃行之。 (中庸)
45、临渊羡鱼,不如退而结网。 (淮南子说林训)
46、风萧萧兮易水寒,壮士一去兮不复还。 (战国策荆轲刺秦王)
47、桃李不言,下自成蹊。 (史记李将军传)
48、燕雀安知鸿鹄之志哉。 (史记陈涉世家)
49、运筹帷幄之中,决胜千里之外。 (史记高祖本纪)
50、忠言逆耳利于行,良药苦口利于病。 (史记留侯世家)
51、人固有一死,或重于泰山,或轻于鸿毛。 (史记报任少卿书)
52、智者千虑,必有一失;愚者千虑,必有一得。(史记淮阴侯 列传)
53、绳锯木断,水滴石穿。 (汉书枚乘传)
54、若要人不知,除非己莫为。 (汉枚乘上书谏吴王)
55、少壮不努力,老大徒伤悲。 (汉乐府长歌行)
56、疾风知劲草,岁寒见后凋。 (后汉书王霸传)
57、失之东隅,收之桑榆。 (后汉书冯异传)
58、精诚所至,金石为开。 (后汉书广陵思王荆传)
59、贫贱之知不可忘,糟糠之妻不下堂。 (后汉书宋弘传)
60、志士不饮盗泉之水,廉者不受嗟来之食。 (后汉书)
61、老骥伏枥,志在千里;烈士暮年,壮心不已。(三国曹操龟虽寿)
62、山不厌高,海不厌深;周公吐哺,天下归心。(三国曹操短歌行)
63、非学无以广才,非志无以成学。 (三国诸葛亮诫子书)
64、非淡泊无以明志,非宁静无以致远。 (三国诸葛亮诫子书)
65、勿以恶小而为之,勿以善小而不为。 (三国刘备)
66、国以民为本,民以食为天。 (西晋陈寿三国志)
67、盛年不重来,一日难再晨。 (东晋陶渊明杂诗)
68、不戚戚于贫贱,不汲汲于富贵。 (东晋陶渊明五柳先生传)
69、一年之计在于春,一日之计在于晨。 (南朝萧铎)
70、宁为玉碎,不为瓦全。 (北齐书元景安传)
71、当局者迷,旁观者清。 (新唐书元行冲传)
72、疾风知劲草,板荡识诚臣。 (唐太宗赠萧禹)
73、海内存知己,天涯若比邻。 (唐王勃送杜少府之任蜀川)
74、欲穷千里目,更上一层楼。 (唐王之涣登鹳雀楼)
75、黄沙百战穿金甲,不破楼兰终不还。 (唐王昌龄从军行)
76、清水出芙蓉,天然去雕饰。 (唐李白论诗)
77、大鹏一日同风起,扶摇直上九万里。 (唐李白上李邕)
78、俱怀逸兴壮思飞,欲上青天揽明月。(唐李白宣州谢饯别校书叔云)
79、仰天大笑出门去,我辈岂是蓬蒿人。 (唐李白南陵别儿童入京)
80、天生我材必有用,千金散尽还复来。 (唐李白将进酒)
81、长风破浪会有时,直挂云帆济沧海。 (唐李白行路难)
82、兴酣落笔摇五岳,诗成笑傲凌沧海。 (唐李白江上吟)
83、安能摧眉折腰事权贵,使我不得开心颜。(唐李白梦游天姥吟留别)
84、读书破万卷,下笔如有神。 (唐杜甫奉赠韦左丞二十二韵)
85、会当凌绝顶,一览众山小。 (唐杜甫望岳)
86、笔落惊风雨,诗成泣鬼神。 (唐杜甫寄本十二白二十 )
87、新松恨不高千尺,恶竹应须斩万竿。 (唐杜甫)
88、尔曹身与名俱灭,不废江河万古流。 (唐杜甫戏为六绝句)
89、今夜月明人尽望,不知愁思落谁家。 (唐王建十五夜望月)
90、谁言寸草心,报得三春晖。 (唐孟郊游子吟)
91、大凡物不得其平则鸣。 (唐韩愈送孟东野序)
92、蚍蜉撼大树,可笑不自量。 (唐韩愈调张籍)
93、业精于勤荒于嬉,行成于思而毁于随。 (唐韩愈进学解)
94、晴空一鹤排云上,便引诗情到碧霄。 (唐刘禹锡秋词)
95、沉舟侧畔千帆进,病树前头万木春。(唐刘禹锡酬乐天扬州初逢)
96、千淘万漉虽辛苦,吹尽狂沙始到金。 (唐刘禹锡浪淘沙)
97、山不在高,有仙则名;水不在深,有龙则灵。(唐刘禹锡陋室铭)
98、谈笑有鸿儒,往来无白丁。 (唐刘禹锡陋室铭)
99、同是天涯沦落人,相逢何必曾相识。 ( 唐白居易琵琶行)
100、在天愿作比翼鸟,在地愿为连理枝。 ( 唐白居易长恨歌)
101、天长地久有时尽,此恨绵绵无绝期。 ( 唐白居易长恨歌)
102、试玉要烧三日满,辨材须待七年期。 ( 唐白居易放言)
103、曾经沧海难为水,除却巫山不是云。 ( 唐元稹离思)
104、年年岁岁花相似,岁岁年年人不同。 ( 唐刘希夷)
105、醉卧沙场君莫笑,古来征战几人回! ( 唐王翰凉州词)
106、黑发不知勤学早,白首方悔读书迟。 ( 唐颜真卿)
107、采得百花成蜜后,为谁辛苦为谁甜。 ( 唐罗隐蜂)
108、十年磨一剑,霜刃未曾试。 ( 唐贾岛剑客)
109、谁知盘中餐,粒粒皆辛苦。 (唐 李绅悯农)
110、男儿何不带吴钩,收取关山五十州。 (唐李贺南国)
111、春蚕到死丝方尽,蜡炬成灰泪始干。 (唐李商隐无题)
112、身无彩凤双飞翼,心有灵犀一点通。 (唐李商隐无题)
113、相见时难别亦难,东风无力百花残。 (唐李商隐无题)
114、庄生晓梦迷蝴蝶,望帝春心托杜鹃。 (唐李商隐锦瑟)
115、历鉴前朝国与家,成由勤俭败由奢。 (唐李商隐)
116、桐花万里丹山路,雏凤清于老凤声。 (唐李商隐)
117、海阔凭鱼跃,天高任鸟飞。 (唐僧云览)
118、剪不断,理还乱,是离愁,别是一番滋味在心头。(五代李煜乌夜啼)
119、昨夜西风凋碧树,独上高楼,望尽天涯路。(五代 晏殊蝶恋花)
120、先天下之忧而忧,后天下之乐而乐。 (宋范仲淹岳阳楼记)
121、残雪压枝犹有桔,冻雷惊笋欲抽芽。 (宋欧阳修戏答元珍)
122、忧劳可以兴国,逸豫可以亡身。 (宋欧阳修伶官传序)
123、祸患常积于忽微,而智勇多困于所溺。(宋欧阳修伶官传序)
124、月上柳梢头,人约黄昏后。 (宋朱淑真生查子)
125、衣带渐宽终不悔,为伊消得人憔悴。 (宋 柳永凤栖梧)
126、兼听则明,偏信则暗。 (宋司马光 资治通鉴)
127、由俭入奢易,由奢入俭难。 (宋司马光 训俭示康)
128、鉴前世之兴衰,考当今之得失。 (宋司马光资治通鉴)
129、循序而渐进,熟读而精思。 (宋朱熹读书之要)
130、问渠哪得清如许,为有源头活水来。 (宋朱熹观书有感)
131、不畏浮云遮望眼,只缘身在最高层。 (宋王安石登飞来峰)
132、看似寻常最奇崛,成如容易却艰辛。 (宋王安石)
133、荷尽已无擎雨盖,菊残犹有傲霜枝。 (宋苏轼冬景)
134、不识庐山真面目,只缘身在此山中。 宋苏轼题西林壁)
135、旧书不厌百回读,熟读深思子自知。 (宋苏轼)
136、博观而约取,厚积而薄发。 (宋苏轼)
137、但愿人长久,千里共婵娟。 (宋苏轼水调歌头)
138、人有悲欢离合,月有阴晴圆缺。 (宋苏轼水调歌头)
139、生当作人杰,死亦为鬼雄。 (宋李清照夏日绝句)
140、物是人非事事休,欲语泪先流。 (宋李清照五陵春)
141、莫道不销魂,帘卷西风,人比黄花瘦。 (宋李清照醉花阴)
142、花自飘零水自流,一种相思,两处闲愁。(宋李清照如梦令)
143、两情若是久长时,又岂在朝朝暮暮。 (宋秦观鹊桥仙)
144、山重水复疑无路,柳暗花明又一村。 (宋陆游游山西村)
145、僵卧孤村不自哀,尚思为国戍轮台。(宋陆游十一月四日风雨 大作)
146、位卑未敢忘忧国,事定犹须待阖棺。 (宋陆游 病起书怀)
147、纸上得来终觉浅,绝知此事要躬行。 (宋陆游冬夜读书示子聿)
148、古人学问无遗力,少壮功夫老始成。 (宋陆游)
2、人而无仪,不死何为。 (诗经风相鼠)
3、言者无罪,闻者足戒。 (诗经大序)
4、他山之石,可以攻玉。 (诗经小雅鹤鸣)
5、投我以桃,报之以李。 (诗经大雅抑)
6、天作孽,犹可违,自作孽,不可活。 (尚书)
7、满招损,谦受益。 (尚书大禹谟)
8、从善如登,从恶如崩。 (国语)
9、多行不义必自毙。 (左传)
10、居安思危,思则有备,有备无患。 (左传)
11、人非圣贤,孰能无过?过而能改,善莫大焉。 (左传)
12、知人者智,自知者明。 (老子)
13、信言不美,美言不信。 (老子)
14、祸兮福之所倚,福兮祸之所伏。 (老子)
15、合抱之木,生于毫末;九层之台,起于累土;千里之行,始于足下。(老子)
16、敏而好学,不耻下问。 (论语公冶长)
17、己所不欲,勿施于人。 (论语颜渊)
18、工欲善其事,必先利其器。 (论语卫灵公)
19、君子坦荡荡,小人长戚戚。 (论语述而)
20、岁寒,然后知松柏之后凋也。 (论语子罕)
21、学而不思则罔,思而不学则殆。 (论语为政)
22、知者不惑,仁者不忧,勇者不惧。 (论语子罕)
23、人谁无过?过而能改,善莫大焉。 (论语)
24、知之为知之,不知为不知,是知也。 (论语为政)
25、知之者不如好之者,好之者不如乐之者。 (论语雍也)
26、其身正,不令而行;其身不正,虽令不从。 (论语子路)
27、三人行,必有我师焉:择其善而从之,其不善者而改之。(论语述而)
28、大道之行,天下为公。 (礼记礼运)
29、凡事预则立,不预则废。 (礼记中庸)
30、学然后知不足,教然后知困。 (礼记学记)
31、玉不琢,不成器;人不学,不知道。 (礼记学记)
32、路漫漫其修远兮,吾将上下而求索。 (屈原离骚)
33、尺有所短,寸有所长。 (楚辞卜居)
34、尽信书,不如无书。 (孟子尽心下)
35、生于忧患,死于安乐。 (孟子告子下)
36、得道多助,失道寡助。 (孟子公孙丑)
37、民为贵,社稷次之,君为轻。 (孟子尽心上)
38、穷则独善其身,达则兼济天下。 (孟子尽心上)
39、天时不如地利,地利不如人和。 (孟子公孙丑)
40、富贵不能淫,贫贱不能移,威武不能屈。 (孟子滕文公)
41、锲而不舍,金石可镂。 (荀子劝学)
42、吾生也有涯,而知也无涯。 (庄子养生主)
43、君子之交淡如水,小人之交甘若醴。 (庄子)
44、博学之,审问之,慎思之,明辨之,笃行之。 (中庸)
45、临渊羡鱼,不如退而结网。 (淮南子说林训)
46、风萧萧兮易水寒,壮士一去兮不复还。 (战国策荆轲刺秦王)
47、桃李不言,下自成蹊。 (史记李将军传)
48、燕雀安知鸿鹄之志哉。 (史记陈涉世家)
49、运筹帷幄之中,决胜千里之外。 (史记高祖本纪)
50、忠言逆耳利于行,良药苦口利于病。 (史记留侯世家)
51、人固有一死,或重于泰山,或轻于鸿毛。 (史记报任少卿书)
52、智者千虑,必有一失;愚者千虑,必有一得。(史记淮阴侯 列传)
53、绳锯木断,水滴石穿。 (汉书枚乘传)
54、若要人不知,除非己莫为。 (汉枚乘上书谏吴王)
55、少壮不努力,老大徒伤悲。 (汉乐府长歌行)
56、疾风知劲草,岁寒见后凋。 (后汉书王霸传)
57、失之东隅,收之桑榆。 (后汉书冯异传)
58、精诚所至,金石为开。 (后汉书广陵思王荆传)
59、贫贱之知不可忘,糟糠之妻不下堂。 (后汉书宋弘传)
60、志士不饮盗泉之水,廉者不受嗟来之食。 (后汉书)
61、老骥伏枥,志在千里;烈士暮年,壮心不已。(三国曹操龟虽寿)
62、山不厌高,海不厌深;周公吐哺,天下归心。(三国曹操短歌行)
63、非学无以广才,非志无以成学。 (三国诸葛亮诫子书)
64、非淡泊无以明志,非宁静无以致远。 (三国诸葛亮诫子书)
65、勿以恶小而为之,勿以善小而不为。 (三国刘备)
66、国以民为本,民以食为天。 (西晋陈寿三国志)
67、盛年不重来,一日难再晨。 (东晋陶渊明杂诗)
68、不戚戚于贫贱,不汲汲于富贵。 (东晋陶渊明五柳先生传)
69、一年之计在于春,一日之计在于晨。 (南朝萧铎)
70、宁为玉碎,不为瓦全。 (北齐书元景安传)
71、当局者迷,旁观者清。 (新唐书元行冲传)
72、疾风知劲草,板荡识诚臣。 (唐太宗赠萧禹)
73、海内存知己,天涯若比邻。 (唐王勃送杜少府之任蜀川)
74、欲穷千里目,更上一层楼。 (唐王之涣登鹳雀楼)
75、黄沙百战穿金甲,不破楼兰终不还。 (唐王昌龄从军行)
76、清水出芙蓉,天然去雕饰。 (唐李白论诗)
77、大鹏一日同风起,扶摇直上九万里。 (唐李白上李邕)
78、俱怀逸兴壮思飞,欲上青天揽明月。(唐李白宣州谢饯别校书叔云)
79、仰天大笑出门去,我辈岂是蓬蒿人。 (唐李白南陵别儿童入京)
80、天生我材必有用,千金散尽还复来。 (唐李白将进酒)
81、长风破浪会有时,直挂云帆济沧海。 (唐李白行路难)
82、兴酣落笔摇五岳,诗成笑傲凌沧海。 (唐李白江上吟)
83、安能摧眉折腰事权贵,使我不得开心颜。(唐李白梦游天姥吟留别)
84、读书破万卷,下笔如有神。 (唐杜甫奉赠韦左丞二十二韵)
85、会当凌绝顶,一览众山小。 (唐杜甫望岳)
86、笔落惊风雨,诗成泣鬼神。 (唐杜甫寄本十二白二十 )
87、新松恨不高千尺,恶竹应须斩万竿。 (唐杜甫)
88、尔曹身与名俱灭,不废江河万古流。 (唐杜甫戏为六绝句)
89、今夜月明人尽望,不知愁思落谁家。 (唐王建十五夜望月)
90、谁言寸草心,报得三春晖。 (唐孟郊游子吟)
91、大凡物不得其平则鸣。 (唐韩愈送孟东野序)
92、蚍蜉撼大树,可笑不自量。 (唐韩愈调张籍)
93、业精于勤荒于嬉,行成于思而毁于随。 (唐韩愈进学解)
94、晴空一鹤排云上,便引诗情到碧霄。 (唐刘禹锡秋词)
95、沉舟侧畔千帆进,病树前头万木春。(唐刘禹锡酬乐天扬州初逢)
96、千淘万漉虽辛苦,吹尽狂沙始到金。 (唐刘禹锡浪淘沙)
97、山不在高,有仙则名;水不在深,有龙则灵。(唐刘禹锡陋室铭)
98、谈笑有鸿儒,往来无白丁。 (唐刘禹锡陋室铭)
99、同是天涯沦落人,相逢何必曾相识。 ( 唐白居易琵琶行)
100、在天愿作比翼鸟,在地愿为连理枝。 ( 唐白居易长恨歌)
101、天长地久有时尽,此恨绵绵无绝期。 ( 唐白居易长恨歌)
102、试玉要烧三日满,辨材须待七年期。 ( 唐白居易放言)
103、曾经沧海难为水,除却巫山不是云。 ( 唐元稹离思)
104、年年岁岁花相似,岁岁年年人不同。 ( 唐刘希夷)
105、醉卧沙场君莫笑,古来征战几人回! ( 唐王翰凉州词)
106、黑发不知勤学早,白首方悔读书迟。 ( 唐颜真卿)
107、采得百花成蜜后,为谁辛苦为谁甜。 ( 唐罗隐蜂)
108、十年磨一剑,霜刃未曾试。 ( 唐贾岛剑客)
109、谁知盘中餐,粒粒皆辛苦。 (唐 李绅悯农)
110、男儿何不带吴钩,收取关山五十州。 (唐李贺南国)
111、春蚕到死丝方尽,蜡炬成灰泪始干。 (唐李商隐无题)
112、身无彩凤双飞翼,心有灵犀一点通。 (唐李商隐无题)
113、相见时难别亦难,东风无力百花残。 (唐李商隐无题)
114、庄生晓梦迷蝴蝶,望帝春心托杜鹃。 (唐李商隐锦瑟)
115、历鉴前朝国与家,成由勤俭败由奢。 (唐李商隐)
116、桐花万里丹山路,雏凤清于老凤声。 (唐李商隐)
117、海阔凭鱼跃,天高任鸟飞。 (唐僧云览)
118、剪不断,理还乱,是离愁,别是一番滋味在心头。(五代李煜乌夜啼)
119、昨夜西风凋碧树,独上高楼,望尽天涯路。(五代 晏殊蝶恋花)
120、先天下之忧而忧,后天下之乐而乐。 (宋范仲淹岳阳楼记)
121、残雪压枝犹有桔,冻雷惊笋欲抽芽。 (宋欧阳修戏答元珍)
122、忧劳可以兴国,逸豫可以亡身。 (宋欧阳修伶官传序)
123、祸患常积于忽微,而智勇多困于所溺。(宋欧阳修伶官传序)
124、月上柳梢头,人约黄昏后。 (宋朱淑真生查子)
125、衣带渐宽终不悔,为伊消得人憔悴。 (宋 柳永凤栖梧)
126、兼听则明,偏信则暗。 (宋司马光 资治通鉴)
127、由俭入奢易,由奢入俭难。 (宋司马光 训俭示康)
128、鉴前世之兴衰,考当今之得失。 (宋司马光资治通鉴)
129、循序而渐进,熟读而精思。 (宋朱熹读书之要)
130、问渠哪得清如许,为有源头活水来。 (宋朱熹观书有感)
131、不畏浮云遮望眼,只缘身在最高层。 (宋王安石登飞来峰)
132、看似寻常最奇崛,成如容易却艰辛。 (宋王安石)
133、荷尽已无擎雨盖,菊残犹有傲霜枝。 (宋苏轼冬景)
134、不识庐山真面目,只缘身在此山中。 宋苏轼题西林壁)
135、旧书不厌百回读,熟读深思子自知。 (宋苏轼)
136、博观而约取,厚积而薄发。 (宋苏轼)
137、但愿人长久,千里共婵娟。 (宋苏轼水调歌头)
138、人有悲欢离合,月有阴晴圆缺。 (宋苏轼水调歌头)
139、生当作人杰,死亦为鬼雄。 (宋李清照夏日绝句)
140、物是人非事事休,欲语泪先流。 (宋李清照五陵春)
141、莫道不销魂,帘卷西风,人比黄花瘦。 (宋李清照醉花阴)
142、花自飘零水自流,一种相思,两处闲愁。(宋李清照如梦令)
143、两情若是久长时,又岂在朝朝暮暮。 (宋秦观鹊桥仙)
144、山重水复疑无路,柳暗花明又一村。 (宋陆游游山西村)
145、僵卧孤村不自哀,尚思为国戍轮台。(宋陆游十一月四日风雨 大作)
146、位卑未敢忘忧国,事定犹须待阖棺。 (宋陆游 病起书怀)
147、纸上得来终觉浅,绝知此事要躬行。 (宋陆游冬夜读书示子聿)
148、古人学问无遗力,少壮功夫老始成。 (宋陆游)
2010年1月12日星期二
teqc --help
Usage: teqc [opts] file1 [file2 [...]]
or: teqc [opts] < default =" 12" default =" 12" default =" 32)" default =" 24)" default =" 19)" default =" 32)" str ="="" x ="="" x ="="" str ="="" str ="="" str ="="">[dhms]) and filename prefix 'str'
-ast str set aligned time binned start time to str == [[[[[[YY]YY]MM]DD]hh]mm]ss[.sssss]
... or str = - or _ to start alignment with the first observation epoch
+win_mo[nument] # window filter on monument/marker name string #, maximal match
-win_mo[nument] # window filter on monument/marker name string #, minimal match
+win_mn # window filter on monument/marker number string #, maximal match
-win_mn # window filter on monument/marker number string #, minimal match
+xdr attempt to use NMEA XDR strings as met data (default)
-xdr do not attempt to use NMEA XDR strings as met data
-delim# change delimiter to # for seperating file names (default = ,)
+obs[file(s)] name output any OBS records in native format to RINEX filename 'name'
+nav[file(s)] list output any NAV records in native format to RINEX filename 'list'
where 'list' == system filename(s) ordered gps[,glonass],[sbas]] (- or _ to omit a specific system name)
+met[file(s)] name output any MET records in native format to RINEX filename 'name'
+eds output external data strings to stderr
-eds don't output external data strings (default)
+event[s_out] output event info with observations in RINEX obs
-event[s_out] don't output event info with observations (default)
+dump_i[on] dump all ionosphere model parameters to stderr
-dump_i[on] don't dump ionosphere model parameters to stderr (default)
+dump_u[tc] dump all UTC model parameters to stderr
-dump_u[tc] don't dump UTC model parameters to stderr (default)
+diag dump parsing and other diagnostics to stderr
-diag don't dump parsing and other diagnostics to stderr (default)
+doy format certain dates such as metadata in year day-of-year
-doy dates formatted in year month day (default)
+smtt smooth time tag (ms jumps in phase and range) (default)
-smtt ms jumps in time tag (smooth phase and range)
-aoa code input is from AOA (JPL) receiver, record type 'code':
code = cb for ConanBinary survey data from TurboRogue or TurboStar rxs
code = tb for TurboBinary survey data from TurboRogue or TurboStar rxs
code = tbY for TurboBinary survey data from Benchmark ACT rx ('Y-codeless')
-ash[tech] code input is from Ashtech receiver, record type 'code':
code = d for B-file survey data
code = s for streamed (MBEN/DBEN) data
code = r for R-file format data
code = u for U-file format data
-cmc code input is from Canadian Marconi (CMC) receiver, record type 'code':
code = b for CMC binary
-jav[ad] code input is from Javad receiver, record type 'code':
code = jps for Javad JPS
-lei[ca] code input is from Leica receiver, record type 'code':
code = ds for Leica DS format
code = lb2 for Leica LB2 format
code = mdb for Leica MDB format
-mot[orola] code input is from Motorola receiver, record type 'code':
code = oncore for Oncore binary
-nct code input is from NavCom Technologies receiver, record type 'code':
code = b for NavCom binary
-roc[kwell] code input is from Rockwell receiver, record type 'code':
code = z for Zodiac format
-sep[tentrio] code input is from Septentrio receiver, record type 'code':
code = sbf for Septentrio Binary Format
-top[con] code input is from Topcon receiver, record type 'code':
code = tps for Topcon TPS
-tr[imble] code input is from Trimble receiver, record type 'code':
code = d for .dat survey data
code = s for big-endian streamed data
-ti code input is from Texas Instruments receiver, record type 'code':
code = gesar for TI-4100 GESAR & BEPP/CORE format survey data
code = rom for TI-4100 TI-ROM format survey data
-ubl[ox] code input is from u-blox AG receiver, record type 'code':
code = ubx for u-blox UBX binary
-binex input is BINEX format
+binex output to be BINEX
= - for default types
-rtigs input is IGS RTWG (RTIGS) format
-soc input is JPL Soc format
-argo input is ARGO format
-P[codes] P-codeless (L2-squaring) or C/A-L1-only receiver
+P[codes] normal dual-frequency receiver (including L2C-capable) (default)
+C2 LC2 code pseudorange to be included in default observables (i.e. no use of -O.obs[_types])
-C2 LC2 code pseudorange not to be included in default observables (default)
+L2 expect and use L2-carrier data (default)
-L2 don't expect L2-carrier data
+L1_2 keep L1 cycle data if L1 is squared (default)
-L1_2 delete L1 cycle data if L1 is squared
+L2_2 keep L2 cycle data if L2 is squared (default)
-L2_2 delete L2 cycle data if L2 is squared
+CA_L1 use phase value in C/A code block as L1 (default for TPSJPSSBF formats and Leica MDB 119)
-CA_L1 use phase value in P1 code block as L1 (default except for TPSJPSSBF formats and Leica MDB 119)
+L2C_L2 use phase value in L2C code block as L2
-L2C_L2 use phase value in P2 code block as L2 (default)
+L5 expect and use L5-carrier data
-L5 don't expect L5-carrier data (default)
-ToE_dt # ToE lookback time from first observation epoch (default # = 2.0 hours)
+msec_phs_adj include ms adjustment to phase values at rx ms resets
-msec_phs_adj don't include ms adjustment to phase values at rx ms resets (default)
+leap[_seconds] subtract current leap seconds from GLONASS pseudoranges (default)
-leap[_seconds] no leap second adjustments to GLONASS pseudoranges
+rssc report site survey change(s) (default)
-rssc don't report site survey change(s)
+rds reverse Doppler sign
-rds keep current Doppler sign (default)
+smooth[ing] include smoothing correction to pseudoranges
-smooth[ing] don't include smoothing correction to pseudoranges (default)
+force_dBHz force dBHz interpretation of certain snr values (Ashtech, Trimble, ...)
-force_dBHz don't force dBHz interpretaion of snr values (default)
+rx_clk_off[set] include receiver clock offset to RINEX OBS and certain BINEX
-rx_clk_off[set] don't include receiver clock offset (default)
+rx_ms_adj[ust] correct data, if needed, for receiver millisecond resets during translation (default)
-rx_ms_adj[ust] do not correct data, i.e. it is correct as is
-r[everse] normal processor endianness on binary data output (default)
+r[everse] reverse processor endianness on binary data output (BINEX only for now)
+Ashtech_qd include all 'questionable' data when translating
-Ashtech_qd exclude all 'questionable' data (default)
+Ashtech_B_file_adjust Ashtech B-file is corrupted
-Ashtech_B_file_adjust normal Ashtech B-file (default)
+Ashtech_old_clk_reset use old Ashtech clock reset scheme
-Ashtech_old_clk_reset use modern Ashtech clock reset scheme (default)
+lb2_fe ignore Leica LB2 records until 0xfe record is read
-lb2_fe use all Leica LB2 records (default)
+skip_init_LB2_03 skip initial Leica LB2 0x03 record
-skip_init_LB2_03 use initial Leica LB2 0x03 record (default)
-sbfobs # specify Septentrio Binary Format observation record to use; # = 588958905944
+geod_p data from Trimble Geodesist-P receiver
-geod_p not from Geodesist-P (default)
+TBnr use 0x68 TurboBinary data (normal-rate observable record) (default)
-TBnr don't use 0x68 TurboBinary data
+TBLC use LC (0xde) TurboBinary data
-TBLC don't use LC (0xde) TurboBinar data (default)
+TB1s use 1-sec (0x1a) TurboBinary data)
-TB1s don't use 1-sec (0x1a) TurboBinary data (default)
+TBhr use high-rate (0xdb, 0xdc) TurboBinary data
-TBhr don't use high-rate (0xdb, 0xdc) TurboBinary data (default)
+TBfe_ff recognize header/trailer records (0xff, 0xfe) TurboBinary records (default)
-TBfe_ff ignore 0xff, 0xfe records
+TB_ca_fix apply CA offset fix to 0x68 TurboBinary records (before ~1 Dec 92)
-TB_ca_fix use modern (post-1 Dec 92( CA translation of 0x68 TurboBinary records (default)
+v[erify] verify conformance to input format standard to stdout
-v[erify] output RINEX standard or other (such as qc output) (default)
+rx_state output any receiver state parameters to stdout
-rx_state output RINEX standard or other (such as qc output) (default)
-week # set GPS week to initial value # for native format translation (default = best guess)
+warn[ings] dump any warnings to stderr (default)
-warn[ings] don't dump any warnings to stderr
+notice[s] dump any notices to stderr (default)
-notice[s] don't dump any notices to stderr
+quiet quiet stdout/stderr qc mode; automatically sets -warn[ings] and -notice[s]
-quiet normal stdout/stderr qc output (default)
+meta[data] produce UNAVCO archive raw metadata table
-meta[data] don't produce UNAVCO archive raw metadata table (default)
+mds show short metadata summary
-mds don't show short metadata summary (default)
+mdf show probable format
-mdf don't show probable format (default)
+phc output all RINEX post-header comments (default)
-phc suppress RINEX post-header comments
-base[year] # change epoch base year to # A.D. (default = 1980)
-O.sum[mary] s for OBS file(s) and stdin not used as input, put summary at beginning of output (two passes)
-O.sum[mary] e for OBS file(s), put summary at end of output (requires only one pass)
-O.an "str" set OBS antenna number to "str"
-O.at "str" set OBS antenna type to "str"
-O.px[WGS84xyz,m] x y z set OBS antenna WGS 84 position to x y z (in meters)
-O.pg[eo,ddm] lat lon el set OBS antenna WGS 84 position to lat lon elevation (degrees degrees meters)
-O.pe[hEN,m] h E N set OBS antenna position eccentricities to h E N (in meters)
-O.mov[ing] 1 force OBS antenna position to be in kinematic (roving) state initially
-O.ag[ency] "str" set OBS operating agency to "str"
+O.c[omment] "str" append OBS comment "str"
-O.dec[imate] # modulo decimation of OBS epochs to # time units
# = 30s results in epochs nominally at 00 and 30 seconds
-O.def_wf i j set OBS default wavelength factors to i and j
-O.mod_wf i j n {SV1 SV2 ... SVn} set OBS modified wavelength factors to i and j of n SVs
-O.e[nd] Y M D h m s set OBS end time (last epoch) to Y M D h m s
-O.int[erval,sec] # set OBS observation interval to # ( > 0.) seconds
-O.leap # set OBS leap seconds to #
-O.mn "str" set OBS monument number to "str"
-O.mo[nument] "str" set OBS monument name to "str"
-O.o[perator] "str" set OBS operator name to "str"
-O.rename_obs "str" rename OBS observables to "str"
"str" = L1L2C1P2 renames 4 observables to be L1 L2 C1 P2, and in that order
-O.obs[_types] "str" change OBS observables to "str"
"str" = L1L2C1P2 sets 4 observables to be L1 L2 C1 P2, and in that order
-O.rn "str" set OBS receiver number to "str"
-O.rt "str" set OBS receiver type to "str"
-O.rv "str" set OBS receiver firmware version to "str"
-O.r[un_by] "str" set OBS run by to "str"
-O.s[ystem] # set OBS satellite system to # (= G, R, S, T, or M)
-O.sl[ant] s d dh set OBS antenna position eccentricities to dh+sqrt(s^2 - (d/2)^2) 0 0 (in meters)
-O.st[art] Y M D h m s set OBS start time (first epoch) to Y M D h m s
-N.a[lpha] a0 a1 a2 a3 set NAV ionosphere alpha parameters to a0 a1 a2 a3
-N.b[eta] b0 b1 b2 b3 set NAV ionosphere beta parameters to b0 b1 b2 b3
+N.c[omment] "str" append NAV comment "str"
-N.corr[_GLO] yr mon day secset GLONASS NAV correction to system time to yr mon day sec
-N.corr_SBAS yr mon day sec set SBAS NAV correction to system time to yr mon day sec
-N.dec[imate] # modulo decimation of NAV ToE epochs to # time units
# = 12h results in ToE epochs at 00 and 12 hours
-N.leap # set NAV leap seconds to #
-N.r[un_by] "str" set NAV run by to "str"
-N.s[ystem] # set NAV satellite system to # (= G, R, S)
-N.UTC A0 A1 t w set NAV UTC time model to A0 A1 t w
+M.c[omment] "str" append MET comment "str"
-M.dec[imate] # modulo decimation of MET epochs to # time units
# = 15m results in epochs at 00, 15, 30, and 45 minutes
-M.int[erval,sec] # set MET observation interval to # ( > 0.) seconds
-M.l[ast_epoch]:: set MET last epoch to ::
-M.mn "str" set MET monument number to "str"
-M.mo[nument] "str" set MET monument name to "str"
+M.mod[el/type/acc] "obs" "model" "type" accuracy set "obs" MET sensor mod/type/acc to "model" "type" accuracy
"obs" = HR, PR, TD, or ZW
-M.rename_obs "str" rename MET observables to "str"
"str" = TD+HR+PR renames 3 observables to be TD HR PR, and in that order
-M.obs[_types] "str" change MET observables to "str"
"str" = TD+HR+PR sets 3 observables to be TD HR PR, and in that order
+M.pos[ition] "obs" x y z h set "obs" MET sensor XYZ/H to x y z h
"obs" = HR, PR, TD, or ZW
-M.r[un_by] "str" set MET run by to "str"
-qc don't do quality check (default)
+qc quality checking (w/ following options):
+ap turn average position on
-ap don't do average position (default)
+eep turn every epoch position (silent) on
-eep don't do silent every epoch position (default)
+eepx turn every epoch position (xyz cartesian)on
-eepx don't do xyz every epoch position (default)
+eepg turn every epoch position (geographical) on
-eepg don't do geographical every epoch position (default)
+cct report coarse code pseudorange observable totals (default)
-cct report coarse code pseudorange subtotals (no precise code pseudorange)
+cl[ock_slips] turn clock n-msec slip detection on (default)
-cl[ock_slips] don't do clock n-msec slip detection
-code_sigmas # set maximum tolerace for code rejection to # (default = 2.0)
+data[indicators] turn data indicators on qc ASCII plot on (default)
-data[indicators] don't use data indicators on qc ASCII plot
-eps[ilon] # set machine epsilon to # (default = 1.387779e-17)
+hor[izon] when possible, show SV information down to horizon (default)
-hor[izon] show only observed SV information
+ion compute L2-ionospheric observable (default)
-ion don't compute L2-ionospheric observables
+iod compute L2-ionospheric derivative (default)
-iod don't compute L2-ionospheric derivative
+tec compute TEC observable
-tec don't compute TEC observables (default)
-bins # use # elevation bins between horizon and zenith for all ion, mp, and sn observables (default = 18)
-ion_bins # use # elevation bins between horizon and zenith for ionospheric observable (default = 18)
-ion_jump[cm] # set maximum L2-ionospheric change to be # cm (default = 1.000e+35)
-iod_jump[cm/min] # set maximum L2-ionospheric time-rate of change to be # cm/minute (default = 400.0)
-gap_mn[min] # set minimum gap allowed # minutes (default = 10.0)
-gap_mx[min] # set maximum gap allowed w/o NAV info to # minutes (default = 90.0)
-glonass_n str str = GLONASS SV and frequency number file
+l[ong_report] write a long report file segment (default)
-l[ong_report] don't write a long report file segment
+lli turn Loss-of-Lock indicator on (default)
-lli don't show Loss-of-Lock indicator
+ma turn multipath moving average on (default)
-ma don't use multipath moving average
+mask when possible, show SV information down to elevation mask
-mask show normal SV information (default)
-min_L1 # set minimum allowable L1 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_L2 # set minimum allowable L2 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_L5 # set minimum allowable L5 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_SVs # set minimum allowable SVs w/ 2 codes (per OBS epoch) to # for position attempt (default = 5) +mp compute L1 and L2 multipath observables (default) -mp don't compute L1 and L2 multipath observables -mp1_rms[cm] # set expected MP1 rms to # cm (default = 50.00) -mp2_rms[cm] # set expected MP2 rms to # cm (default = 65.00) -mp15_rms[cm] # set expected MP15 rms to # cm (default = 50.00) -mp51_rms[cm] # set expected MP51 rms to # cm (default = 65.00) -mp_bins # use # elevation bins between horizon and zenith for mulitpath (default = 18) +mp_raw show raw multipath (no slip removal) -mp_raw show multipath (if being done) w/ slip removal (default) -mp_sigmas # set minimum sigma threshold for mp slips to # sigmas (default = 4.0) -mp_win # set multipath moving average window to # (< default =" 50)" default =" 100.0)" default =" 1.00e-02)" u ="="" default =" 10)"> 0) meters (default = 1.000000e+00 m)
-pos_jump[m] # set position jump detection to # ( > 0) meters (default = 1.000000e+05 m)
+rep[ort] write a report file (default)
-rep[ort] don't write any report file
+reset find antenna position and re-qc RINEX OBS file (default)
-reset only one pass of each RINEX OBS file allowed (default if using stdin)
-root str supply filename root for ancillary files as str
+rs compute rise and set times of each SV w/ NAV info (default)
-rs don't compute rise and set times
+s[hort_report] write a short report file segment (default)
-s[hort_report] don't write a short report file segment
-set_hor[izon,deg] # set elevation horizon to # degrees (default = 0.00)
-set_mask[deg] # set elevation mask to # degrees (default = 10.00)
-set_comp[arison,deg] # set elevation comparison to # degrees (default = 25.00)
-slips name slip details written to file name
+sn[ratio] compute S/N observables (default)
-sn[ratio] don't compute S/N observables
-sn_bins # use # elevation bins between horizon and zenith for S/N (default = 18)
+ssv give individual SUM lines for each SV
-ssv no individual SUM lines for each SV (default)
+sym[bol_codes] dump symbol codes and hierarchy for short report ASCII time plot
-sym[bol_codes] don't dump symbol codes and hierarchy (default)
-w[idth] # set time width of qc ASCII plot to 0 < # < 256 (default = 72)
+Y[-code] Y-code receiver expected
-Y[-code] P-code receiver expected (possible tracking of P-codes w/ A/S on) (default)
-qcq don't do quality check, quick or otherwise (default)
+qcq do quality check w/ no plots or report unless explicitly specified
or: teqc [opts] < default =" 12" default =" 12" default =" 32)" default =" 24)" default =" 19)" default =" 32)" str ="="" x ="="" x ="="" str ="="" str ="="" str ="="">[dhms]) and filename prefix 'str'
-ast str set aligned time binned start time to str == [[[[[[YY]YY]MM]DD]hh]mm]ss[.sssss]
... or str = - or _ to start alignment with the first observation epoch
+win_mo[nument] # window filter on monument/marker name string #, maximal match
-win_mo[nument] # window filter on monument/marker name string #, minimal match
+win_mn # window filter on monument/marker number string #, maximal match
-win_mn # window filter on monument/marker number string #, minimal match
+xdr attempt to use NMEA XDR strings as met data (default)
-xdr do not attempt to use NMEA XDR strings as met data
-delim# change delimiter to # for seperating file names (default = ,)
+obs[file(s)] name output any OBS records in native format to RINEX filename 'name'
+nav[file(s)] list output any NAV records in native format to RINEX filename 'list'
where 'list' == system filename(s) ordered gps[,glonass],[sbas]] (- or _ to omit a specific system name)
+met[file(s)] name output any MET records in native format to RINEX filename 'name'
+eds output external data strings to stderr
-eds don't output external data strings (default)
+event[s_out] output event info with observations in RINEX obs
-event[s_out] don't output event info with observations (default)
+dump_i[on] dump all ionosphere model parameters to stderr
-dump_i[on] don't dump ionosphere model parameters to stderr (default)
+dump_u[tc] dump all UTC model parameters to stderr
-dump_u[tc] don't dump UTC model parameters to stderr (default)
+diag dump parsing and other diagnostics to stderr
-diag don't dump parsing and other diagnostics to stderr (default)
+doy format certain dates such as metadata in year day-of-year
-doy dates formatted in year month day (default)
+smtt smooth time tag (ms jumps in phase and range) (default)
-smtt ms jumps in time tag (smooth phase and range)
-aoa code input is from AOA (JPL) receiver, record type 'code':
code = cb for ConanBinary survey data from TurboRogue or TurboStar rxs
code = tb for TurboBinary survey data from TurboRogue or TurboStar rxs
code = tbY for TurboBinary survey data from Benchmark ACT rx ('Y-codeless')
-ash[tech] code input is from Ashtech receiver, record type 'code':
code = d for B-file survey data
code = s for streamed (MBEN/DBEN) data
code = r for R-file format data
code = u for U-file format data
-cmc code input is from Canadian Marconi (CMC) receiver, record type 'code':
code = b for CMC binary
-jav[ad] code input is from Javad receiver, record type 'code':
code = jps for Javad JPS
-lei[ca] code input is from Leica receiver, record type 'code':
code = ds for Leica DS format
code = lb2 for Leica LB2 format
code = mdb for Leica MDB format
-mot[orola] code input is from Motorola receiver, record type 'code':
code = oncore for Oncore binary
-nct code input is from NavCom Technologies receiver, record type 'code':
code = b for NavCom binary
-roc[kwell] code input is from Rockwell receiver, record type 'code':
code = z for Zodiac format
-sep[tentrio] code input is from Septentrio receiver, record type 'code':
code = sbf for Septentrio Binary Format
-top[con] code input is from Topcon receiver, record type 'code':
code = tps for Topcon TPS
-tr[imble] code input is from Trimble receiver, record type 'code':
code = d for .dat survey data
code = s for big-endian streamed data
-ti code input is from Texas Instruments receiver, record type 'code':
code = gesar for TI-4100 GESAR & BEPP/CORE format survey data
code = rom for TI-4100 TI-ROM format survey data
-ubl[ox] code input is from u-blox AG receiver, record type 'code':
code = ubx for u-blox UBX binary
-binex input is BINEX format
+binex
-rtigs input is IGS RTWG (RTIGS) format
-soc input is JPL Soc format
-argo input is ARGO format
-P[codes] P-codeless (L2-squaring) or C/A-L1-only receiver
+P[codes] normal dual-frequency receiver (including L2C-capable) (default)
+C2 LC2 code pseudorange to be included in default observables (i.e. no use of -O.obs[_types])
-C2 LC2 code pseudorange not to be included in default observables (default)
+L2 expect and use L2-carrier data (default)
-L2 don't expect L2-carrier data
+L1_2 keep L1 cycle data if L1 is squared (default)
-L1_2 delete L1 cycle data if L1 is squared
+L2_2 keep L2 cycle data if L2 is squared (default)
-L2_2 delete L2 cycle data if L2 is squared
+CA_L1 use phase value in C/A code block as L1 (default for TPSJPSSBF formats and Leica MDB 119)
-CA_L1 use phase value in P1 code block as L1 (default except for TPSJPSSBF formats and Leica MDB 119)
+L2C_L2 use phase value in L2C code block as L2
-L2C_L2 use phase value in P2 code block as L2 (default)
+L5 expect and use L5-carrier data
-L5 don't expect L5-carrier data (default)
-ToE_dt # ToE lookback time from first observation epoch (default # = 2.0 hours)
+msec_phs_adj include ms adjustment to phase values at rx ms resets
-msec_phs_adj don't include ms adjustment to phase values at rx ms resets (default)
+leap[_seconds] subtract current leap seconds from GLONASS pseudoranges (default)
-leap[_seconds] no leap second adjustments to GLONASS pseudoranges
+rssc report site survey change(s) (default)
-rssc don't report site survey change(s)
+rds reverse Doppler sign
-rds keep current Doppler sign (default)
+smooth[ing] include smoothing correction to pseudoranges
-smooth[ing] don't include smoothing correction to pseudoranges (default)
+force_dBHz force dBHz interpretation of certain snr values (Ashtech, Trimble, ...)
-force_dBHz don't force dBHz interpretaion of snr values (default)
+rx_clk_off[set] include receiver clock offset to RINEX OBS and certain BINEX
-rx_clk_off[set] don't include receiver clock offset (default)
+rx_ms_adj[ust] correct data, if needed, for receiver millisecond resets during translation (default)
-rx_ms_adj[ust] do not correct data, i.e. it is correct as is
-r[everse] normal processor endianness on binary data output (default)
+r[everse] reverse processor endianness on binary data output (BINEX only for now)
+Ashtech_qd include all 'questionable' data when translating
-Ashtech_qd exclude all 'questionable' data (default)
+Ashtech_B_file_adjust Ashtech B-file is corrupted
-Ashtech_B_file_adjust normal Ashtech B-file (default)
+Ashtech_old_clk_reset use old Ashtech clock reset scheme
-Ashtech_old_clk_reset use modern Ashtech clock reset scheme (default)
+lb2_fe ignore Leica LB2 records until 0xfe record is read
-lb2_fe use all Leica LB2 records (default)
+skip_init_LB2_03 skip initial Leica LB2 0x03 record
-skip_init_LB2_03 use initial Leica LB2 0x03 record (default)
-sbfobs # specify Septentrio Binary Format observation record to use; # = 588958905944
+geod_p data from Trimble Geodesist-P receiver
-geod_p not from Geodesist-P (default)
+TBnr use 0x68 TurboBinary data (normal-rate observable record) (default)
-TBnr don't use 0x68 TurboBinary data
+TBLC use LC (0xde) TurboBinary data
-TBLC don't use LC (0xde) TurboBinar data (default)
+TB1s use 1-sec (0x1a) TurboBinary data)
-TB1s don't use 1-sec (0x1a) TurboBinary data (default)
+TBhr use high-rate (0xdb, 0xdc) TurboBinary data
-TBhr don't use high-rate (0xdb, 0xdc) TurboBinary data (default)
+TBfe_ff recognize header/trailer records (0xff, 0xfe) TurboBinary records (default)
-TBfe_ff ignore 0xff, 0xfe records
+TB_ca_fix apply CA offset fix to 0x68 TurboBinary records (before ~1 Dec 92)
-TB_ca_fix use modern (post-1 Dec 92( CA translation of 0x68 TurboBinary records (default)
+v[erify] verify conformance to input format standard to stdout
-v[erify] output RINEX standard or other (such as qc output) (default)
+rx_state output any receiver state parameters to stdout
-rx_state output RINEX standard or other (such as qc output) (default)
-week # set GPS week to initial value # for native format translation (default = best guess)
+warn[ings] dump any warnings to stderr (default)
-warn[ings] don't dump any warnings to stderr
+notice[s] dump any notices to stderr (default)
-notice[s] don't dump any notices to stderr
+quiet quiet stdout/stderr qc mode; automatically sets -warn[ings] and -notice[s]
-quiet normal stdout/stderr qc output (default)
+meta[data] produce UNAVCO archive raw metadata table
-meta[data] don't produce UNAVCO archive raw metadata table (default)
+mds show short metadata summary
-mds don't show short metadata summary (default)
+mdf show probable format
-mdf don't show probable format (default)
+phc output all RINEX post-header comments (default)
-phc suppress RINEX post-header comments
-base[year] # change epoch base year to # A.D. (default = 1980)
-O.sum[mary] s for OBS file(s) and stdin not used as input, put summary at beginning of output (two passes)
-O.sum[mary] e for OBS file(s), put summary at end of output (requires only one pass)
-O.an "str" set OBS antenna number to "str"
-O.at "str" set OBS antenna type to "str"
-O.px[WGS84xyz,m] x y z set OBS antenna WGS 84 position to x y z (in meters)
-O.pg[eo,ddm] lat lon el set OBS antenna WGS 84 position to lat lon elevation (degrees degrees meters)
-O.pe[hEN,m] h E N set OBS antenna position eccentricities to h E N (in meters)
-O.mov[ing] 1 force OBS antenna position to be in kinematic (roving) state initially
-O.ag[ency] "str" set OBS operating agency to "str"
+O.c[omment] "str" append OBS comment "str"
-O.dec[imate] # modulo decimation of OBS epochs to # time units
# = 30s results in epochs nominally at 00 and 30 seconds
-O.def_wf i j set OBS default wavelength factors to i and j
-O.mod_wf i j n {SV1 SV2 ... SVn} set OBS modified wavelength factors to i and j of n SVs
-O.e[nd] Y M D h m s set OBS end time (last epoch) to Y M D h m s
-O.int[erval,sec] # set OBS observation interval to # ( > 0.) seconds
-O.leap # set OBS leap seconds to #
-O.mn "str" set OBS monument number to "str"
-O.mo[nument] "str" set OBS monument name to "str"
-O.o[perator] "str" set OBS operator name to "str"
-O.rename_obs "str" rename OBS observables to "str"
"str" = L1L2C1P2 renames 4 observables to be L1 L2 C1 P2, and in that order
-O.obs[_types] "str" change OBS observables to "str"
"str" = L1L2C1P2 sets 4 observables to be L1 L2 C1 P2, and in that order
-O.rn "str" set OBS receiver number to "str"
-O.rt "str" set OBS receiver type to "str"
-O.rv "str" set OBS receiver firmware version to "str"
-O.r[un_by] "str" set OBS run by to "str"
-O.s[ystem] # set OBS satellite system to # (= G, R, S, T, or M)
-O.sl[ant] s d dh set OBS antenna position eccentricities to dh+sqrt(s^2 - (d/2)^2) 0 0 (in meters)
-O.st[art] Y M D h m s set OBS start time (first epoch) to Y M D h m s
-N.a[lpha] a0 a1 a2 a3 set NAV ionosphere alpha parameters to a0 a1 a2 a3
-N.b[eta] b0 b1 b2 b3 set NAV ionosphere beta parameters to b0 b1 b2 b3
+N.c[omment] "str" append NAV comment "str"
-N.corr[_GLO] yr mon day secset GLONASS NAV correction to system time to yr mon day sec
-N.corr_SBAS yr mon day sec set SBAS NAV correction to system time to yr mon day sec
-N.dec[imate] # modulo decimation of NAV ToE epochs to # time units
# = 12h results in ToE epochs at 00 and 12 hours
-N.leap # set NAV leap seconds to #
-N.r[un_by] "str" set NAV run by to "str"
-N.s[ystem] # set NAV satellite system to # (= G, R, S)
-N.UTC A0 A1 t w set NAV UTC time model to A0 A1 t w
+M.c[omment] "str" append MET comment "str"
-M.dec[imate] # modulo decimation of MET epochs to # time units
# = 15m results in epochs at 00, 15, 30, and 45 minutes
-M.int[erval,sec] # set MET observation interval to # ( > 0.) seconds
-M.l[ast_epoch]
-M.mn "str" set MET monument number to "str"
-M.mo[nument] "str" set MET monument name to "str"
+M.mod[el/type/acc] "obs" "model" "type" accuracy set "obs" MET sensor mod/type/acc to "model" "type" accuracy
"obs" = HR, PR, TD, or ZW
-M.rename_obs "str" rename MET observables to "str"
"str" = TD+HR+PR renames 3 observables to be TD HR PR, and in that order
-M.obs[_types] "str" change MET observables to "str"
"str" = TD+HR+PR sets 3 observables to be TD HR PR, and in that order
+M.pos[ition] "obs" x y z h set "obs" MET sensor XYZ/H to x y z h
"obs" = HR, PR, TD, or ZW
-M.r[un_by] "str" set MET run by to "str"
-qc don't do quality check (default)
+qc quality checking (w/ following options):
+ap turn average position on
-ap don't do average position (default)
+eep turn every epoch position (silent) on
-eep don't do silent every epoch position (default)
+eepx turn every epoch position (xyz cartesian)on
-eepx don't do xyz every epoch position (default)
+eepg turn every epoch position (geographical) on
-eepg don't do geographical every epoch position (default)
+cct report coarse code pseudorange observable totals (default)
-cct report coarse code pseudorange subtotals (no precise code pseudorange)
+cl[ock_slips] turn clock n-msec slip detection on (default)
-cl[ock_slips] don't do clock n-msec slip detection
-code_sigmas # set maximum tolerace for code rejection to # (default = 2.0)
+data[indicators] turn data indicators on qc ASCII plot on (default)
-data[indicators] don't use data indicators on qc ASCII plot
-eps[ilon] # set machine epsilon to # (default = 1.387779e-17)
+hor[izon] when possible, show SV information down to horizon (default)
-hor[izon] show only observed SV information
+ion compute L2-ionospheric observable (default)
-ion don't compute L2-ionospheric observables
+iod compute L2-ionospheric derivative (default)
-iod don't compute L2-ionospheric derivative
+tec compute TEC observable
-tec don't compute TEC observables (default)
-bins # use # elevation bins between horizon and zenith for all ion, mp, and sn observables (default = 18)
-ion_bins # use # elevation bins between horizon and zenith for ionospheric observable (default = 18)
-ion_jump[cm] # set maximum L2-ionospheric change to be # cm (default = 1.000e+35)
-iod_jump[cm/min] # set maximum L2-ionospheric time-rate of change to be # cm/minute (default = 400.0)
-gap_mn[min] # set minimum gap allowed # minutes (default = 10.0)
-gap_mx[min] # set maximum gap allowed w/o NAV info to # minutes (default = 90.0)
-glonass_n str str = GLONASS SV and frequency number file
+l[ong_report] write a long report file segment (default)
-l[ong_report] don't write a long report file segment
+lli turn Loss-of-Lock indicator on (default)
-lli don't show Loss-of-Lock indicator
+ma turn multipath moving average on (default)
-ma don't use multipath moving average
+mask when possible, show SV information down to elevation mask
-mask show normal SV information (default)
-min_L1 # set minimum allowable L1 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_L2 # set minimum allowable L2 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_L5 # set minimum allowable L5 S/N RINEX code to 0 <= # <= 9 (default = 0) -min_SVs # set minimum allowable SVs w/ 2 codes (per OBS epoch) to # for position attempt (default = 5) +mp compute L1 and L2 multipath observables (default) -mp don't compute L1 and L2 multipath observables -mp1_rms[cm] # set expected MP1 rms to # cm (default = 50.00) -mp2_rms[cm] # set expected MP2 rms to # cm (default = 65.00) -mp15_rms[cm] # set expected MP15 rms to # cm (default = 50.00) -mp51_rms[cm] # set expected MP51 rms to # cm (default = 65.00) -mp_bins # use # elevation bins between horizon and zenith for mulitpath (default = 18) +mp_raw show raw multipath (no slip removal) -mp_raw show multipath (if being done) w/ slip removal (default) -mp_sigmas # set minimum sigma threshold for mp slips to # sigmas (default = 4.0) -mp_win # set multipath moving average window to # (< default =" 50)" default =" 100.0)" default =" 1.00e-02)" u ="="" default =" 10)"> 0) meters (default = 1.000000e+00 m)
-pos_jump[m] # set position jump detection to # ( > 0) meters (default = 1.000000e+05 m)
+rep[ort] write a report file (default)
-rep[ort] don't write any report file
+reset find antenna position and re-qc RINEX OBS file (default)
-reset only one pass of each RINEX OBS file allowed (default if using stdin)
-root str supply filename root for ancillary files as str
+rs compute rise and set times of each SV w/ NAV info (default)
-rs don't compute rise and set times
+s[hort_report] write a short report file segment (default)
-s[hort_report] don't write a short report file segment
-set_hor[izon,deg] # set elevation horizon to # degrees (default = 0.00)
-set_mask[deg] # set elevation mask to # degrees (default = 10.00)
-set_comp[arison,deg] # set elevation comparison to # degrees (default = 25.00)
-slips name slip details written to file name
+sn[ratio] compute S/N observables (default)
-sn[ratio] don't compute S/N observables
-sn_bins # use # elevation bins between horizon and zenith for S/N (default = 18)
+ssv give individual SUM lines for each SV
-ssv no individual SUM lines for each SV (default)
+sym[bol_codes] dump symbol codes and hierarchy for short report ASCII time plot
-sym[bol_codes] don't dump symbol codes and hierarchy (default)
-w[idth] # set time width of qc ASCII plot to 0 < # < 256 (default = 72)
+Y[-code] Y-code receiver expected
-Y[-code] P-code receiver expected (possible tracking of P-codes w/ A/S on) (default)
-qcq don't do quality check, quick or otherwise (default)
+qcq do quality check w/ no plots or report unless explicitly specified
百度被黑
C:\Documents and Settings\Administrator>ping http://www.baidu.com/
Pinging sbs-p11p.asbs.yahoodns.net [69.147.83.188] with 32 bytes of data:
Request timed out.Request timed out.Request timed out.Request timed out.
Ping statistics for 69.147.83.188: Packets: Sent = 4, Received = 0, Lost = 4 (100% loss),
C:\Documents and Settings\Administrator>ping http://www.baidu.com/Ping request could not find host http://www.baidu.com/. Please check the name and try again.
C:\Documents and Settings\Administrator>C:\Documents and Settings\Administrator>ping http://www.baidu.com/Ping request could not find host http://www.baidu.com/. Please check the name and try again.
C:\Documents and Settings\Administrator>ping http://www.baidu.com/
Pinging baidu.com [127.0.0.1] with 32 bytes of data:
Reply from 127.0.0.1: bytes=32 time<1ms ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128" sent =" 4," received =" 4," lost =" 0" minimum =" 0ms," maximum =" 0ms," average =" 0ms">ping http://www.baidu.com/
Pinging baidu.com [127.0.0.1] with 32 bytes of data:
Reply from 127.0.0.1: bytes=32 time<1ms ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128" sent =" 4," received =" 4," lost =" 0" minimum =" 0ms," maximum =" 0ms," average =" 0ms">
Pinging sbs-p11p.asbs.yahoodns.net [69.147.83.188] with 32 bytes of data:
Request timed out.Request timed out.Request timed out.Request timed out.
Ping statistics for 69.147.83.188: Packets: Sent = 4, Received = 0, Lost = 4 (100% loss),
C:\Documents and Settings\Administrator>ping http://www.baidu.com/Ping request could not find host http://www.baidu.com/. Please check the name and try again.
C:\Documents and Settings\Administrator>C:\Documents and Settings\Administrator>ping http://www.baidu.com/Ping request could not find host http://www.baidu.com/. Please check the name and try again.
C:\Documents and Settings\Administrator>ping http://www.baidu.com/
Pinging baidu.com [127.0.0.1] with 32 bytes of data:
Reply from 127.0.0.1: bytes=32 time<1ms ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128" sent =" 4," received =" 4," lost =" 0" minimum =" 0ms," maximum =" 0ms," average =" 0ms">ping http://www.baidu.com/
Pinging baidu.com [127.0.0.1] with 32 bytes of data:
Reply from 127.0.0.1: bytes=32 time<1ms ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128Reply" bytes="32" ttl="128" sent =" 4," received =" 4," lost =" 0" minimum =" 0ms," maximum =" 0ms," average =" 0ms">
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